US11582065B2 - Systems and methods for device communication - Google Patents

Systems and methods for device communication Download PDF

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Publication number
US11582065B2
US11582065B2 US13/954,553 US201313954553A US11582065B2 US 11582065 B2 US11582065 B2 US 11582065B2 US 201313954553 A US201313954553 A US 201313954553A US 11582065 B2 US11582065 B2 US 11582065B2
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Prior art keywords
premises devices
gateway
devices
data
security
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US13/954,553
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US20140167928A1 (en
Inventor
Dana Burd
Paul J. Dawes
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IControl Networks Inc
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IControl Networks Inc
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Priority claimed from US11/761,745 external-priority patent/US8635350B2/en
Priority claimed from US12/019,568 external-priority patent/US10142392B2/en
Priority claimed from US12/539,537 external-priority patent/US10156959B2/en
Priority claimed from US12/750,470 external-priority patent/US9191228B2/en
Priority claimed from US13/104,932 external-priority patent/US20120066608A1/en
Priority claimed from US13/244,008 external-priority patent/US8963713B2/en
Priority claimed from US13/311,365 external-priority patent/US9141276B2/en
Priority claimed from US13/335,279 external-priority patent/US11113950B2/en
Priority claimed from US13/531,757 external-priority patent/US20120331109A1/en
Priority claimed from US13/718,851 external-priority patent/US10156831B2/en
Priority claimed from US13/925,181 external-priority patent/US10339791B2/en
Priority claimed from US13/929,568 external-priority patent/US10444964B2/en
Priority claimed from US13/932,837 external-priority patent/US9621408B2/en
Application filed by IControl Networks Inc filed Critical IControl Networks Inc
Priority to US13/954,553 priority Critical patent/US11582065B2/en
Priority to US14/200,921 priority patent/US11423756B2/en
Assigned to ICONTROL NETWORKS, INC. reassignment ICONTROL NETWORKS, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BURD, DANA, DAWES, PAUL J.
Publication of US20140167928A1 publication Critical patent/US20140167928A1/en
Priority to US15/177,441 priority patent/US20170070361A1/en
Priority to US15/177,915 priority patent/US11316958B2/en
Priority to US15/177,448 priority patent/US20170070563A1/en
Priority to US15/196,646 priority patent/US20170118037A1/en
Priority to US15/196,281 priority patent/US11368327B2/en
Priority to US15/198,855 priority patent/US10530839B2/en
Priority to US15/198,531 priority patent/US11190578B2/en
Priority to US15/204,662 priority patent/US10522026B2/en
Priority to US15/237,873 priority patent/US20170185277A1/en
Priority to US15/238,864 priority patent/US20170185278A1/en
Priority to US15/292,866 priority patent/US20170257257A1/en
Priority to US15/354,380 priority patent/US11258625B2/en
Priority to US16/258,858 priority patent/US10796557B2/en
Priority to US16/688,717 priority patent/US11641391B2/en
Priority to US16/807,028 priority patent/US20200204430A1/en
Priority to US17/003,550 priority patent/US11410531B2/en
Priority to US17/094,120 priority patent/US11616659B2/en
Assigned to ICONTROL NETWORKS, INC. reassignment ICONTROL NETWORKS, INC. ASSIGNEE CHANGE OF ADDRESS Assignors: ICONTROL NETWORKS, INC.
Priority to US17/202,279 priority patent/US11816323B2/en
Priority to US17/455,005 priority patent/US11729255B2/en
Priority to US17/576,336 priority patent/US11792036B2/en
Priority to US17/691,774 priority patent/US11758026B2/en
Priority to US17/804,941 priority patent/US11711234B2/en
Priority to US17/808,118 priority patent/US20230086344A1/en
Priority to US18/150,316 priority patent/US20230291608A1/en
Application granted granted Critical
Publication of US11582065B2 publication Critical patent/US11582065B2/en
Priority to US18/307,985 priority patent/US20230291789A1/en
Priority to US18/313,728 priority patent/US20230275957A1/en
Priority to US18/316,580 priority patent/US11962672B2/en
Priority to US18/450,878 priority patent/US20240089140A1/en
Priority to US18/591,562 priority patent/US20240205308A1/en
Active legal-status Critical Current
Adjusted expiration legal-status Critical

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Definitions

  • the embodiments described herein relate generally to a method and apparatus for improving the capabilities of security systems in premise applications.
  • FIG. 1 is a block diagram of the integrated security system, under an embodiment.
  • FIG. 2 A is a block diagram of a security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment.
  • FIG. 2 B is another block diagram of the security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment.
  • FIG. 3 is a flow diagram for integrating or interfacing the external control and management system (SPIM) with the security panel of the legacy security system, under an embodiment.
  • SPIM external control and management system
  • FIG. 4 is a block diagram of components of the integrated security system, under an embodiment.
  • FIG. 5 is a block diagram of the gateway software or applications, under an embodiment.
  • FIG. 6 is a block diagram of the gateway components, under an embodiment.
  • FIG. 7 is a block diagram of IP device integration with a premise network, under an embodiment.
  • FIG. 8 is a block diagram of IP device integration with a premise network, under an alternative embodiment.
  • FIG. 9 is a block diagram of a touchscreen, under an embodiment.
  • FIG. 10 is an example screenshot of a networked security touchscreen, under an embodiment.
  • FIG. 11 is a block diagram of network or premise device integration with a premise network, under an embodiment.
  • FIG. 12 is a block diagram of network or premise device integration with a premise network, under an alternative embodiment.
  • FIG. 13 is a flow diagram for a method of forming a security network including integrated security system components, under an embodiment.
  • FIG. 14 is a flow diagram for a method of forming a security network including integrated security system components and network devices, under an embodiment.
  • FIG. 15 is a flow diagram for installation of an IP device into a private network environment, under an embodiment.
  • FIG. 16 is a block diagram showing communications among IP devices of the private network environment, under an embodiment.
  • FIG. 17 is a flow diagram of a method of integrating an external control and management application system with an existing security system, under an embodiment.
  • FIG. 18 is a block diagram of an integrated security system wirelessly interfacing to proprietary security systems, under an embodiment.
  • FIG. 19 is a flow diagram for wirelessly ‘learning’ the gateway into an existing security system and discovering extant sensors, under an embodiment.
  • FIG. 20 is a block diagram of a security system in which the legacy panel is replaced with a wireless security panel wirelessly coupled to a gateway, under an embodiment.
  • FIG. 21 is a block diagram of a security system in which the legacy panel is replaced with a wireless security panel wirelessly coupled to a gateway, and a touchscreen, under an alternative embodiment.
  • FIG. 22 is a block diagram of a security system in which the legacy panel is replaced with a wireless security panel connected to a gateway via an Ethernet coupling, under another alternative embodiment.
  • FIG. 23 is a flow diagram for automatic takeover of a security system, under an embodiment.
  • FIG. 24 is a flow diagram for automatic takeover of a security system, under an alternative embodiment.
  • Embodiments described herein include systems and methods for improving the capabilities of security systems in home and business applications. More particularly, the embodiments provide systems and methods for utilizing Internet Protocol (IP)-based solutions for interfacing to and controlling security systems from within a home or business, and extending such control and interface to remote devices outside the premise.
  • IP Internet Protocol
  • Embodiments described herein use wireless-to-serial encapsulation (e.g., RF-to-serial encapsulation, WiFi-to-serial encapsulation, etc.) to move serial device drivers to other locations in a network (near the device or radio) to separate them from the wireless management device or access point, and the encapsulation allows that device to appear like a local serial device for application purposes.
  • the embodiments include a wireless (e.g., radio frequency (RF), etc.) system that enables a system provider or consumer to extend the capabilities of an existing or legacy system that is a proprietary system installed at a location (e.g., home, office, etc.).
  • RF radio frequency
  • the embodiments described in detail herein include a wireless system that enables a security system provider or consumer to extend the capabilities of a legacy security system installed at a home and/or office, but the embodiments are not limited to interfacing with a security system and can interface with any type of legacy or proprietary system.
  • the integrated security system of an embodiment includes an RF-capable Gateway device and associated software operating on the Gateway device physically located within RF range of the security system or a second RF device described herein.
  • the Gateway device can be a touchscreen device coupled to and/or incorporating functionality of the Gateway as described in detail herein.
  • the system also includes an interface device coupled between the Gateway device and the security system.
  • This interface device generally referred to herein as the Security Panel Interface Module (“SPIM”) or the “Cricket”, is located within the same premise as the security system and connected to the security panel through the security panel wiring interface or bus.
  • the SPIM includes an one or more RF communication devices or modules that enable an RF interface, or other wired or wireless interface, to the security system by the Gateway and/or other remote RF device.
  • the one or more RF communication devices or modules include one or more of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a radio frequency (RF) communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a proprietary RF communication device (e.g., 900 MHz, 433 MHz, etc.), to name a few.
  • the integrated security system also optionally includes a web server, application server, and remote database providing a persistent store for information related to the system.
  • One or more alternative embodiments may incorporate all or part of the SPIM functionality described herein as an optional or intrinsic component of a security panel.
  • the security systems of an embodiment extend the value of traditional home security by adding broadband access and the advantages of remote home monitoring and home control through the formation of a security network including components of the integrated security system integrated with a conventional premise security system and a premise local area network (LAN).
  • LAN local area network
  • conventional home security sensors, cameras, touchscreen keypads, lighting controls, and/or Internet Protocol (IP) devices in the home (or business) become connected devices that are accessible anywhere in the world from a web browser, mobile phone or through content-enabled touchscreens.
  • IP Internet Protocol
  • the integrated security system experience allows security operators to both extend the value proposition of their monitored security systems and reach new consumers that include broadband users interested in staying connected to their family, home and property when they are away from home.
  • the integrated security system of an embodiment includes security servers (also referred to herein as iConnect servers or security network servers) and an iHub gateway (also referred to herein as the gateway, the iHub, or the iHub client) that couples or integrates into a home network (e.g., LAN) and communicates directly with the home security panel, in both wired and wireless installations.
  • the security system of an embodiment automatically discovers the security system components (e.g., sensors, etc.) belonging to the security system and connected to a control panel of the security system and provides consumers with full two-way access via web and mobile portals.
  • the gateway and the SPIM of an embodiment support various wireless protocols as described in detail herein and can therefore interconnect and communicate with a wide range of control panels offered by security system providers.
  • IP cameras IP cameras
  • lighting modules IP cameras
  • security devices such as interactive touchscreen keypads.
  • the integrated security system adds an enhanced value to these security systems by enabling consumers to stay connected through email and SMS alerts, photo push, proprietary mobile push interfaces, event-based video capture and rule-based monitoring and notifications. This solution extends the reach of home security to households with broadband access.
  • the integrated security system builds upon the foundation afforded by traditional security systems by layering broadband and mobile access, IP cameras, interactive touchscreens, and an open approach to home automation on top of traditional security system configurations.
  • the integrated security system is easily installed and managed by the security operator, and simplifies the traditional security installation process, as described below.
  • the integrated security system provides an open systems solution to the home security market.
  • CPE customer premises equipment
  • the integrated security system DeviceConnect technology that enables this capability supports protocols, devices, and panels from GE Security, DSC, and Honeywell, as well as consumer devices using Z-Wave, Zigbee, IP cameras (e.g., Ethernet, WiFi, and Homeplug), and IP touchscreens.
  • the DeviceConnect technology is a device abstraction layer that enables any device or protocol layer to interoperate with integrated security system components. This architecture enables the addition of new devices supporting any of these interfaces, as well as the addition of new protocols.
  • DeviceConnect provides supplier flexibility.
  • the same consistent touchscreen, web, and mobile user experience operates unchanged on whatever security equipment is selected by a security system provider, with the system provider's choice of IP cameras, backend data center and central station software.
  • the integrated security system provides a complete system that integrates or layers on top of a conventional host security system available from a security system provider.
  • the security system provider therefore can select different components or configurations to offer for both the SPIM and the Gateway (e.g., CDMA, GPRS, 3G, LTE, no cellular, etc.) as well as have iControl modify the integrated security system configuration for the system provider's specific needs (e.g., change the functionality of the web or mobile portal, add a GE or Honeywell-compatible TouchScreen, etc.).
  • the integrated security system integrates with the security system provider infrastructure for central station reporting directly via Broadband and cellular (e.g. GPRS, 3G, LTE, 1xRTT, etc.) alarm transmissions. Traditional dial-up reporting is supported via the standard panel connectivity. Additionally, the integrated security system provides interfaces for advanced functionality to the CMS, including enhanced alarm events, system installation optimizations, system test verification, video verification, 2-way voice over IP and GSM.
  • the alarm report of an embodiment is generated by the security panel, and then relayed over broadband or cellular by the SPIM using a cellular modem, as described in detail herein.
  • the SPIM relays the alarm report over RF (e.g., Wifi, etc.) to the Gateway and the Gateway communicates the alarm report to the CMS over Broadband or cellular, depending on the physical configuration of the Gateway and SPIM (i.e., where the cellular modem and broadband connection interfaces are configured).
  • the SPIM processes security system data received from the Security System and generates the alarm report in the SPIM, and uses the cellular or broadband connection to forward the alarm report to the Gateway and/or the CMS.
  • the Gateway processes security system data received from the Security System via the SPIM and generates the alarm report in the Gateway, and forwards the alarm report to the CMS.
  • the integrated security system is an IP centric system that includes broadband connectivity so that the gateway augments the existing security system with broadband and cellular connectivity. If broadband is down or unavailable cellular may be used, for example.
  • the integrated security system supports cellular connectivity using an optional wireless package that includes a cellular modem in the gateway.
  • the integrated security system treats the cellular connection as a higher cost though flexible option for data transfers.
  • the cellular connection is only used to route alarm events (e.g., for cost), however the gateway can be configured (e.g., through the iConnect server interface) to act as a primary channel and pass any or all events over cellular. Consequently, the integrated security system does not interfere with the current plain old telephone service (POTS) security panel interface. Alarm events can still be routed through POTS; however the gateway also allows such events to be routed through a broadband or cellular connection as well.
  • POTS plain old telephone service
  • the SPIM can couple or connect to the POTS connection of the security panel and use this coupling to receive alarm reports that the SPIM or Gateway then forward to the CMS.
  • the integrated security system provides a web application interface to the CSR tool suite as well as XML or REST web services interfaces for programmatic integration between the security system provider's existing call center products.
  • the integrated security system includes, for example, APIs that allow the security system provider to integrate components of the integrated security system into a custom call center interface.
  • the APIs include XML or REST web service APIs for integration of existing security system provider call center applications with the integrated security system service. All functionality available in the CSR Web application is provided with these API sets.
  • the Java and XML-based APIs of the integrated security system support provisioning, billing, system administration, CSR, central station, portal user interfaces, and content management functions, to name a few.
  • the integrated security system can provide a customized interface to the security system provider's billing system, or alternatively can provide security system developers with APIs and support in the integration effort.
  • the integrated security system provides or includes business component interfaces for provisioning, administration, and customer care to name a few. Standard templates and examples are provided with a defined customer professional services engagement to help integrate OSS/BSS systems of a Service Provider with the integrated security system.
  • the integrated security system components support and allow for the integration of customer account creation and deletion with a security system.
  • the iConnect APIs provides access to the provisioning and account management system in iConnect and provide full support for account creation, provisioning, and deletion. Depending on the requirements of the security system provider, the iConnect APIs can be used to completely customize any aspect of the integrated security system backend operational system.
  • the integrated security system includes a gateway that supports the following standards-based interfaces, to name a few: Ethernet IP communications via Ethernet ports on the gateway, and standard XML/REST/TCP/IP protocols and ports are employed over secured SSL sessions; USB 2.0 via ports on the gateway; 802.11b/g/n IP communications; GSM/GPRS/3G/LTE RF WAN communications; CDMA 1xRTT RF WAN communications (optional, can also support EVDO and 3G technologies).
  • Ethernet IP communications via Ethernet ports on the gateway, and standard XML/REST/TCP/IP protocols and ports are employed over secured SSL sessions
  • USB 2.0 via ports on the gateway
  • 802.11b/g/n IP communications GSM/GPRS/3G/LTE RF WAN communications
  • CDMA 1xRTT RF WAN communications (optional, can also support EVDO and 3G technologies).
  • the gateway supports the following proprietary interfaces, to name a few: interfaces including Dialog RF network (319.5 MHz) and RS485 Superbus 2000 wired interface; RF mesh network (908 MHz); and interfaces including RF network (345 MHz) and RS485/RS232 bus wired interfaces.
  • the integrated security system uses SSL or other AES-type encryption techniques to encrypt IP traffic, using server and client-certificates for authentication, as well as authentication in the data sent over the SSL-encrypted channel.
  • SSL Secure Sockets Layer
  • integrated security system issues public/private key pairs at the time/place of manufacture, and certificates are not stored in any online storage in an embodiment.
  • the integrated security system does not need any special rules at the customer premise and/or at the security system provider central station because the integrated security system makes outgoing connections using TCP over the standard HTTP and HTTPS ports. Provided outbound TCP connections are allowed then no special requirements on the firewalls are necessary.
  • FIG. 1 is a block diagram of the integrated security system 100 , under an embodiment.
  • the integrated security system 100 of an embodiment includes the gateway 102 and the security servers 104 coupled to the conventional home security system 110 .
  • the gateway 102 connects and manages the diverse variety of home security and self-monitoring devices.
  • the gateway 102 communicates with the iConnect Servers 104 located in the service provider's data center 106 (or hosted in integrated security system data center), and the communication occurs via a communication network 108 or other network (e.g., cellular network, internet, etc.).
  • These servers 104 manage the system integrations necessary to deliver the integrated system service described herein.
  • the combination of the gateway 102 and the iConnect servers 104 enable a wide variety of remote client devices 120 (e.g., PCs, mobile phones and PDAs) allowing users to remotely stay in touch with their home, business and family.
  • remote client devices 120 e.g., PCs, mobile phones and PDAs
  • the technology allows home security and self-monitoring information, as well as relevant third party content such as traffic and weather, to be presented in intuitive ways within the home, such as on advanced touchscreen keypads.
  • the integrated security system service (also referred to as iControl service) can be managed by a service provider via browser-based Maintenance and Service Management applications that are provided with the iConnect Servers. Or, if desired, the service can be more tightly integrated with existing OSS/BSS and service delivery systems via the iConnect web services-based XML APIs.
  • the integrated security system service can also coordinate the sending of alarms to the home security Central Monitoring Station (CMS) 199 .
  • Alarms are passed to the CMS 199 using standard protocols such as Contact ID or SIA and can be generated from the home security panel location, by iHub technology (embedded in a Gateway and/or SPIM as described with reference to FIG. 2 ) as well as by iConnect server 104 conditions (such as lack of communications with the integrated security system).
  • the link between the security servers 104 and CMS 199 provides tighter integration between home security and self-monitoring devices and the gateway 102 . Such integration enables advanced security capabilities such as the ability for CMS personnel to view photos taken at the time a burglary alarm was triggered.
  • the gateway 102 and iConnect servers 104 support the use of a mobile network (GPRS, 3G, LTE, EVDO, and CDMA options are available) as a backup to the primary broadband connection.
  • the SPIM is included as a component in the integrated security system of an embodiment to enable the use of wireless-to-serial encapsulation in the security system.
  • the integrated security system therefore integrates broadband and mobile access and control with conventional security systems and premise devices to provide a multi-mode security network (broadband, cellular/GSM/3G/LTE, POTS access) that enables users to remotely stay connected to their premises.
  • the integrated security system while delivering remote premise monitoring and control functionality to conventional monitored premise protection, complements existing premise protection equipment.
  • the integrated security system integrates into the premise network and couples wirelessly with the conventional security panel, enabling broadband access to premise security systems.
  • Automation devices can be added, enabling users to remotely see live video and/or pictures and control home devices via their personal web portal or webpage, mobile phone, and/or other remote client device. Users can also receive notifications via email or text message when happenings occur, or do not occur, in their home.
  • the SPIM of an embodiment enables a remote system (e.g., gateway, touchscreen, security server, central monitoring station, etc.) to communicate with a system or device that internally uses a proprietary protocol (“proprietary system”).
  • a proprietary protocol (“proprietary system”).
  • the system that uses the proprietary protocol is a legacy security system, but this could be any type of system or device using a proprietary protocol.
  • the SPIM functions in the role of a monitoring-and-control device in that it performs the functions necessary to pass data and commands from the remote device or system to the proprietary system, and to pass data of events reported by the proprietary system from the proprietary system to the remote device or system.
  • the SPIM enabled as a cellular or broadband device, enables legacy security systems to communicate with a remote server or other remote system to provide remote control of the security system, remote display of security status and data, and notifications regarding user specified condition changes.
  • the SPIM also enables alarm notifications and reporting, where alarm reports are generated by the security system and communicated to the SPIM via an interface or, alternatively, the alarm reports are generated by the SPIM using data received at the SPIM from the security system.
  • the SPIM enables remote control of home management devices that include but are not limited to Z-Wave devices, Zigbee devices, WiFi devices, cameras, touch screens, lights, locks, thermostats, and blinds, to name a few.
  • the SPIM communicates with the proprietary system using any protocol(s) required of the proprietary system. Similarly, the SPIM communicates with remote systems or devices using one or more protocols as appropriate to the remote system/device and/or network couplings or connections between the SPIM and the remote system/device.
  • the integrated security system of an embodiment uses Transmission Control Protocol (TCP) for commands from the remote system to the SPIM, and User Datagram Protocol (UDP) for transmitting to the remote system event data received at the SPIM from the security panel.
  • TCP Transmission Control Protocol
  • UDP User Datagram Protocol
  • the SPIM can communicate with the remote system using various protocols as appropriate to the communication protocol of the remote system (e.g., serial protocol (may or may not be the same as the serial protocol of the proprietary system), Ethernet (TCP/Internet Protocol (IP)), WiFi (TCP/IP), etc.).
  • serial protocol may or may not be the same as the serial protocol of the proprietary system
  • IP Transmission Control Protocol
  • IP Internet Protocol
  • WiFi TCP/IP
  • the SPIM translates between the serial communication protocol of the panel/bus and the protocol of the remote system as appropriate to the direction of the communication.
  • the SPIM functions to insulate the remote system from low-level implementation details of the proprietary system and provides an interface by which data of the proprietary system is extracted from the proprietary system and communicated to remote systems of a variety of types using any type of communication protocol available as the state of the art.
  • the SPIM further enables the protocol translations necessary for communicating with the proprietary system to be performed at any component of the remote system, including the SPIM.
  • the SPIM can directly transmit the proprietary system data to a remote system where the data is processed.
  • the SPIM processes the received data before transmitting the processed data to a remote system.
  • the SPIM can directly transfer the data to an intermediate device (e.g., gateway, IP device on wide area network (WAN), etc.) using an appropriate protocol, and the intermediate device uses a protocol (e.g., SMA protocol, 3G, broadband, etc.) to transmit the data to a remote server where the data is processed.
  • the SPIM can directly transfer the data to an intermediate device (e.g., gateway, etc.) using WiFi, Ethernet, or a serial connection and the intermediate device processes the data.
  • the SPIM of an embodiment uses a protocol (e.g., Z-Wave, etc.) as a transport mechanism by which it sends packets to a remote system or device. The embodiments are not however limited to the examples described herein.
  • the security system includes a security panel, also referred to as a control panel, or panel.
  • the panel includes a processor and an internal bus or other communication medium that couples the panel to and enables communication with peripheral devices of the security system, where the peripheral devices include one or more of keypads, automation modules, extender modules, and output modules.
  • the security panel can include more than one bus or communication medium.
  • the buses of an embodiment are typically serial buses that are referred to as “multi-drop” buses because they couple to and enable communication with multiple devices, but are not so limited.
  • the legacy system buses function as polling interfaces by which the security panel polls the security system devices coupled to the bus (and registered with the panel) as to the existence of data, commands, or information that is to be sent to or exchanged with the panel.
  • Inherent in this polling bus communication configuration are tightly constrained timing requirements for the communications between the panel and the coupled devices.
  • An alternative bus configuration is a point-to-point configuration in which the bus is coupled to the security panel on one end and a single device on the other end of the bus.
  • the panel polls the device as to the availability of data or, alternatively, the device transmits commands or data to panel as they become available.
  • the bus is a serial bus, it cannot be used to communicate directly with systems or devices that are not connected to the bus meaning it cannot communicate directly via various other means of communication (e.g., 3G, wireless, internet, WiFi, etc.). Also, the bus cannot be used to communicate directly with devices that are not able to comply with the strict communication timing constraints. For this reason the SPIM is used to enable communication between the serial bus of the security panel and remote systems that are not on the serial bus.
  • the SPIM serves as a monitoring-and-control interface between remote systems and the security panel and, in so doing, serves as a protocol translator for those communications.
  • the SPIM is used to manage and control the protocol translation, communication translation (electrical conversion) and timing constraints associated with communication between the panel and remote systems.
  • the handling of control enables the sending of commands from remote systems to the security panel and receiving responses in turn.
  • the monitoring segment enabled by the SPIM deals with the receipt at the remote systems of events and data transmitted or reported by the security panel. Event data sent from the security panel can be asynchronously transmitted by the panel to the remote system but is not so limited. Alternatively, the remote system polls the panel via the SPIM for the events.
  • the SPIM may conduct polling operations on behalf of the remote system.
  • Event data received in response from the panel can be buffered at the SPIM and sent to the remote system in due course, or retransmitted to the remote system immediately upon receipt.
  • Processing and/or applications relating to the SPIM or operations of the SPIM can be executing on one or more of at least one processor hosted on the SPIM and at least one processor coupled to the SPIM.
  • the applications can be executing on one or more of the remote gateway, the remote touchscreen, and the remote server.
  • the SPIM of an embodiment makes use of an abbreviated command set (relative to the control panel) that is abstracted away from particular implementations of the panel.
  • the SPIM includes a protocol translator that maps between specific commands of the underlying system and more generic commands of the remote system. While the translator or translator mapping is a component of the SPIM of an embodiment, it is not so limited and can be hosted in or coupled to one or more other components of remote system.
  • the SPIM of an embodiment sends alarm events directly to the CMS (e.g., over at least one of a broadband coupling or connection, or 3G coupling or connection, etc.).
  • the SPIM of an alternative embodiment sends alarm events to an intermediate device (e.g., system, server, etc.), and the intermediate device in turn forwards the alarm events to the CMS.
  • the SPIM of another alternative embodiment sends alarm events through a local gateway or other system or device, and the gateway in turn sends the alarm events to the CMS (e.g., directly, through an intermediate server, etc.).
  • a wireless system e.g., radio frequency (RF)
  • RF radio frequency
  • the system includes the SPIM that communicates with the proprietary security system using the protocol(s) required of the proprietary system.
  • the SPIM enables the security system to communicate with a remote system to provide remote control of the security system, remote display of security status and data, and notifications regarding user specified condition changes.
  • the system includes an RF-capable Gateway device (physically located within RF range of the RF-capable security system) and associated software operating on the Gateway device.
  • the system also includes a web server, application server, and remote database providing a persistent store for information related to the system.
  • the SPIM of an embodiment is an all-in one device that includes the components of the SPIM described herein, along with components used for one or more of WiFi communication, 3G communication, Z-Wave, and Zigbee communication.
  • the SPIM includes only the SPIM components described herein, and is coupled to other communication components.
  • one or more of the WiFi communication component, 3G communication component, Z-Wave communication, and Zigbee component can be hosted in the gateway, and the SPIM communicates with the gateway over a serial coupling or connection.
  • FIG. 2 A is a block diagram of a security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment.
  • the security system is coupled or connected to the SPIM of the external control and management system via a wired or wireless interface to the security panel bus device.
  • the SPIM is also coupled or connected to the gateway or touchscreen via an RF link.
  • the Gateway is coupled to a broadband network, and the broadband network provides couplings and/or access to network servers comprising numerous information and content sources including web servers, system databases, and applications servers to name a few.
  • the gateway of an embodiment provides the interface between security system and the CMS and/or other designated remote systems and devices for purposes of remote control, monitoring, and management.
  • the broadband network comprises the Internet, including the World Wide Web, and/or any other type of network, such as an intranet, an extranet, a virtual private network (VPN), a mobile network, or a non-TCP/IP based network, for example.
  • VPN virtual private network
  • the SPIM of an embodiment includes one or more RF interfaces or communication devices that enable wireless communications with remote devices.
  • the SPIM of an embodiment includes a communication device that is a cellular interface that enables the SPIM to communicate via a remote cellular network directly to remote cellular-enabled systems.
  • the cellular interface enables the SPIM to communicate directly with the external central monitoring station (CMS), and/or to communicate directly with the network servers.
  • CMS central monitoring station
  • the communication device of an embodiment includes any device or combination of wireless communication devices, for example, a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a radio frequency (RF) communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, a proprietary RF communication device (e.g., 900 MHz, 433 MHz, etc.), and a plain old telephone service (POTS) device, to name a few.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • LTE Long Term Evolution
  • RF radio frequency
  • WiFi WiFi communication
  • Z-Wave communication device a Z-Wave communication device
  • Zigbee communication device a proprietary RF communication
  • the SPIM of an embodiment is coupled or connected to broadband by routing an Ethernet cable from the SPIM into a router or broadband modem.
  • the coupling or connection between the SPIM and broadband includes a WiFi hop to a WiFi Access Point that is then coupled or connected to (or included in) the broadband (e.g., cable, DSL, etc.) modem.
  • the coupling or connection between the SPIM and broadband includes a WiFi hop to a 3G or 4G personal wireless device (e.g., MiFi, cellular telephone, etc.).
  • Communication between the SPIM and a remote system can includes use of a “command channel” over which various commands are sent (e.g., disarm security system, turn on a light, etc.).
  • the command channel of an embodiment comprises at least one of an “always-on” socket connection initiated/maintained by the SPIM, and an ephemeral coupling or connection that is initiated by the remote system sending a shoulder-tap SMS message (after receiving the shoulder-tap, the SPIM opens a socket connection to the server).
  • This command channel is used to get around firewall restrictions, and network-address-space limitations, which make it impossible for the server to simply open a network connection to SPIM.
  • the “always-on” command channel is used in an embodiment because of the low-latency connection (that is, when sending a command, the remote server sends it on the open channel instead of waiting for a shoulder tap to be received in order to initiate a callback.
  • the “shoulder-tap initiated” command channel is used in an embodiment to avoid the data-usage and system resources required with keeping the command channel open.
  • the SPIM of an embodiment also includes an alarm interface that receives an alarm report directly from security system, and sends the report directly to the CMS and/or other designated remote devices via the SPIM communication device.
  • the alarm interface alternatively sends the alarm report to an off-site system or server via the gateway/touchscreen.
  • the alarm interface receives security state data or information from the security system, generates an alarm report using the security state information, and sends the generated alarm report directly to one or more of the CMS and/or other designated remote devices.
  • the alarm interface alternatively sends the alarm report to an off-site system or server via the gateway/touchscreen.
  • the SPIM of an embodiment includes an onboard scheduling and/or rules engine that enables the end-user to program schedules and automations. This is particularly useful for SPIMs that are able to control associated devices (e.g., Z-Wave device, Zigbee device, etc.). For example, some Z-Wave thermostats (e.g., Radio Thermostat if America's CT-100) are not end-user-programmable with different temperature set-points at different times of the day.
  • Z-Wave thermostats e.g., Radio Thermostat if America's CT-100
  • thermostat schedules on a remote system e.g., remote server, etc.
  • the remote system then has to send commands to the thermostat several times a day to change parameters (e.g., heat and/or cool set-points, system modes, fan modes, etc.).
  • change parameters e.g., heat and/or cool set-points, system modes, fan modes, etc.
  • the bandwidth, delay, and uncertainty associated with the remote system calling the SPIM with thermostat settings changes can be avoided by running the schedule locally on the SPIM.
  • the SPIM of an embodiment locally controls automatic actions of an associated system (e.g., causing a light to turn on in response to opening of a door, etc.).
  • This SPIM-based automation logic improves bandwidth and speed by avoiding the requirement to send the event or event information to the remote system, having the logic of the remote system decide that an action is to be taken, and then sending a command back to the SPIM.
  • This is particularly useful when the automation involves a security-panel sensor (e.g., door sensor, window sensor, motion sensor, etc.) triggering a video or snapshot capture from a camera, because the delay in getting the sensor event of the panel to a remote security server, and the resulting capture command making it back to the camera, is often too long for such an automaton to be useful.
  • the automation logic run in the SPIM, a relatively shorter delay is realized between the trigger event (e.g., door open), and the action (e.g., video capture).
  • FIG. 2 B is another block diagram of a security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment.
  • the SPIM 2230 of this embodiment generally comprises a hardware interface module and a driver running on a processor of the Gateway.
  • the hardware interface module couples or connects to the wired bus of the security panel 2211 and manages and controls all direct communication with the panel.
  • the driver running on the Gateway 2220 mediates between the hardware interface module and the user-level applications of the integrated security system.
  • the SPIM hardware interface module includes but is not limited to a processor (not shown) coupled or connected to a real-time bus interface 2231 , a bus protocol or protocol module 2232 , and at least one communication device.
  • the communication device of an embodiment includes one or more of a WiFi client module 2233 , a cellular interface 2234 , and an alarm interface 2235 .
  • the communication device comprises any device or combination of wireless communication devices, for example, a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device, to name a few.
  • the SPIM of an embodiment includes a self-contained power source and backup power source but, alternatively, the SPIM is coupled or connected to the power source and backup power source of the security system.
  • the security system 2210 is connected to the SPIM 2230 of the external control and management system via a wire interface 2280 between a processing component of the security system 2210 and the bus interface 2231 of the SPIM 2230 .
  • the processing component to which the bus interface 2231 of an embodiment is coupled is a security panel bus device 2213 of the security panel 2211 , but the embodiment is not so limited.
  • Embodiments of the wire interface 2280 include but are not limited to a TTL interface, an RS 232 interface, an RS422 interface, etc.
  • the SPIM of an embodiment encapsulates proprietary security system data and transmits it to a remote system (e.g., remote server, etc.) where the security system data is parsed and processed.
  • a remote system e.g., remote server, etc.
  • the SPIM encapsulates the proprietary security system data and transmits it to the Gateway where the security system data is parsed and processed.
  • the SPIM parses proprietary security system data, initiates actions appropriate to the data, and sends instructions to the Gateway and/or remote system (e.g., remote server, etc.).
  • the SPIM manages the timing and framing requirements of data exchanges with the security system.
  • the SPIM couples to the Gateway 2220 via an RF link 2270 .
  • the RF link 2270 of this example is a WiFi link to a WiFi access point 2223 of the Gateway, but alternatively can include any type of radio frequency (RF) link (e.g., Z-Wave, Zigbee, cellular, etc.).
  • RF radio frequency
  • the wireless link is a hop in the “sandbox” WiFi network described in detail herein.
  • the Gateway 2220 is a touchscreen coupled or connected to the Gateway 2220 or a touchscreen incorporating components and/or functionality of the Gateway 2220 , as described in detail herein.
  • the Gateway 2220 is coupled to a broadband network 2230 , and the broadband network 2230 provides couplings and/or access to a plurality of information and content sources including one or more web servers 2240 , system databases 2250 , and applications servers 2260 to name a few.
  • the broadband network 2230 comprises the Internet, including the World Wide Web, and/or any other type of network, such as an intranet, an extranet, a virtual private network (VPN), a mobile network, or a non-TCP/IP based network, for example.
  • Security system 2210 includes any type home or business security system, such devices including but not limited to a standalone RF home security system or a non-RF-capable wired home security system with an add-on RF interface module as described in detail herein.
  • security system 2210 includes a security panel (SP) 2211 that acts as the master controller for security system 2210 .
  • SP security panel
  • Examples of such a security panel include but are not limited to the UTC Interlogix Concord, Networx, and Simon panels, the Honeywell Vista and Lynx panels, and similar panels from DSC and Napco.
  • a wireless module 2212 includes the RF hardware and protocol software to enable communication with and control of security system components that include a plurality of wireless devices.
  • the security system components include, for example, door contacts, window contacts, motion sensors, and glass-break detectors, but are not so limited.
  • the security panel 2211 may also manage wired security system components 2214 physically connected to the security panel 2211 with an RS232, a conventional DC or AC circuit for contacts, or RS485 or Ethernet connection or similar such wired interface.
  • Gateway 2220 provides the interface between security system 2210 and LAN and/or WAN for purposes of remote control, monitoring, and management.
  • Gateway 2220 communicates with an external web server 2240 , database 2250 , and application server 2260 over network 2230 (which may comprise WAN, LAN, cellular or a combination thereof).
  • application logic, remote user interface functionality, as well as user state and account information is managed by the combination of these remote servers.
  • Gateway 2220 includes server connection manager 2221 , a software interface module responsible for all server communication over network 2230 (including cellular and/or IP WAN connectivity). While the Gateway 2220 of an embodiment is a managed device managed by the remote servers, the Gateway of an alternative embodiment is invisible to the remote servers and serves as nothing more than a pass-through for data and communications.
  • the Device Manager 2224 of Gateway 2220 processes events and control messages exchanged with the security system 2210 using the SPIM 2230 .
  • Device Manager 2224 relies upon SPIM 2230 which receives and stores the proprietary or standards-based protocols used to support the security system 2210 .
  • SPIM 2230 further uses the comprehensive protocols and interface algorithms for a plurality of security systems 2210 stored in the security panel client database associated with security panel protocol manager 2226 . These various components implement the software logic and protocols necessary to communicate with and manage the security system 2210 as well as other remote devices.
  • the SPIM 2230 is used as an intermediary between Gateway 2220 and Security System 2210 for all security interfaces.
  • RF Link 2270 represents the 802.11n (WiFi) RF communication link, enabling gateway 2220 to monitor and control security panel 2211 and associated wireless and wired devices 2214 , but is not so limited.
  • Gateway 2220 In addition to communicating with Security System 2210 and with security system components, Gateway 2220 communicates with other remote devices at the premises. Gateway 2220 includes Wireless Transceiver hardware modules 2225 that are used to implement the physical RF communications links to remote devices.
  • the server connection manager 2221 of Gateway 2220 of an embodiment requests and receives a set of wireless protocols for a specific security system 2210 (an example being that of the GE Security Concord panel and sensors) and stores the protocols in the database portion of the wireless protocol manager 2226 .
  • the WiFi access point manager 2223 uses the protocols from wireless protocol manager 2226 to initiate the sequence of processes described herein for learning gateway 2220 into security system 2210 as an authorized control device.
  • event manager 222 processes all events and messages detected by the combination of the WiFi access point manager 2223 and the wireless transceiver module 2225 of Gateway 2220 .
  • Gateway 2220 of an embodiment comprises one or more wireless transceivers 2225 and associated protocols managed by wireless protocol manager 2226 .
  • events and control of multiple heterogeneous devices may be coordinated with security panel 2211 , wireless devices 2213 , and wired devices 2214 .
  • a wireless sensor from one manufacturer may be utilized to control a device using a different protocol from a different manufacturer.
  • the SPIM 2230 of an embodiment includes a cellular interface 2234 .
  • the cellular interface 2234 enables the SPIM 2230 to communicate via a remote cellular network to remote cellular-enabled systems.
  • the cellular interface 2234 enables the SPIM 2230 to communicate directly with the external central monitoring station (CMS), and/or to communicate directly with the Application Server 2260 , without requiring a separate Gateway device.
  • CMS central monitoring station
  • the SPIM 2230 of an embodiment includes an alarm interface 2235 .
  • the alarm interface 2235 receives an alarm report directly from Security System 2210 .
  • the Wire Interface 2280 between the SPIM 2230 and the Security System 2210 includes a connection to one of the security panel bus 2213 or the phone line RJ11 connection used for POTS alarm transmission.
  • the alarm interface 2235 then forwards the report to one or more of the CMS, Application Server 2260 , or another off-site server designated by the service provider.
  • the alarm interface 2235 of an embodiment sends the alarm report to an off-site system or server via the Gateway 2220 .
  • the alarm interface 2235 sends the alarm report to an off-site system or server directly using the cellular interface 2234 .
  • the alarm interface 2235 receives security state data or information from the security system 2210 .
  • the alarm interface 2235 uses the security state information received from the security system via Wire Interface 2280 to generate an alarm report.
  • the alarm interface 2235 forwards the report to one or more of the CMS, Application Server 2260 , or another off-site server designated by the service provider.
  • the alarm interface 2235 of an embodiment sends the alarm report to an off-site system or server via the Gateway 2220 .
  • the alarm interface 2235 sends the alarm report to an off-site system or server directly using the cellular interface 2234 .
  • FIG. 3 is a flow diagram 30 for integrating or interfacing the external control and management system (SPIM) with the security panel of the legacy security system, under an embodiment.
  • SPIM 2230 interface with the proprietary bus of the security panel uses real-time bus interface 2231 and bus protocol 2232 , which may be downloaded dynamically from Gateway 2220 or Application Server 2260 .
  • the system of an embodiment is installed by connecting the SPIM device to the bus-level or other proprietary interface of the security panel 3110 .
  • the SPIM When initially powered on, the SPIM may be enrolled in the security panel as a known type of device or devices (e.g. as a keypad or an ‘automation module’).
  • the Gateway and/or touchscreen device also referred to herein as the iHub, is placed in an operational state 3111 , from which the Gateway initiates 3112 a software and RF sequence to locate, enroll, and interface to the SPIM device.
  • the SPIM may be enrolled with the Gateway device using conventional WiFi enrollment procedures, including WPS, web-based SSID/password entry, or automatic MAC address discovery and SPIM configuration by the Gateway, to name a few.
  • the SPIM begins monitoring information on the security panel bus and communications with the Gateway over the WiFi RF link 3113 .
  • the SPIM monitors for a state change in the security panel (e.g., an alarm condition, sensor fault (e.g., door open, etc.), etc.) 3120 or other data of the security system.
  • the SPIM listens for a Gateway request (e.g., ‘Arm Panel’, ‘Get Zone Names’, etc.) 3122 directed to the security system. If neither the security panel nor Gateway need or provide information, the SPIM continues monitoring operations 3113 .
  • the SPIM processes the state change information 3121 as described in detail herein, and forwards the new state information to the Gateway over the Wifi RF link 3124 .
  • the SPIM receives from the Gateway a command or request for data from the security panel, the SPIM receives this request 3123 and formulates a command sequence on the security panel bus 3125 .
  • the formulation is followed by an implementation of the command in the native bus protocol 3126 and involves details described herein.
  • the Gateway is an embedded computer with an IP LAN and WAN connection and a plurality of RF transceivers and software protocol modules capable of communicating with a plurality of security systems each with a potentially different RF and software protocol interface.
  • the SPIM can then be a WiFi device, IP LAN wired device, or an RF device using a different protocol such as Z-Wave or Zigbee, for example, so that the use of the WiFi-to-serial encapsulation can be generalized for use with other serial interfaces like Z-Wave, Zigbee and other home management devices.
  • the WiFi-to-serial encapsulation enables moving of the serial device drivers to other locations in a network (near the device or radio) to separate them from the WiFi management device or access point.
  • the software running on a system controller is too far from a smart meter to use a local serial adapter (e.g. USB dongle radio) to connect via Zigbee, so the Zigbee dongle is plugged into a different device that has a WiFi or TCP connection (like a home router or iHub panel) and the encapsulation allows that device to appear like a local serial device for application purposes.
  • a local serial adapter e.g. USB dongle radio
  • the wireless-to-serial encapsulation of an embodiment uses a WiFi coupling or connection.
  • a security panel or SPIM can incorporate or include a WiFi client directly into the security panel or SPIM
  • embodiments described herein provide a SPIM implemented as a “WiFi SPIM” (WiSPIM) for interfacing to conventional security systems.
  • WiSPIM is a WiFi interface module that is separate from the panel or SPIM, and enables communication between a conventional security panel or SPIM and the iHub.
  • the WiSPIM of an embodiment communicates with the security panel or SPIM using the existing serial line, and communicates with the iHub (Gateway and/or Touchscreen) via a WiFi coupling or connection so that no changes are necessary to the legacy security panels or SPIMs.
  • the WiSPIM provides transparent serial-to-WiFi bridging between the iHub and legacy security equipment, and includes wireless security using, for example, WPA2 Personal, and optional addition of application-level encryption via SSL/TLS.
  • the WiSPIM of an embodiment includes provisioning such that the WiSPIMs WiFi credentials (e.g., authentication keys/passwords, IP address, configuration, settings, etc.) are obtained from the iHub via the WiFi coupling. Furthermore, the WiSPIM includes management functionality in which the WiSPIM configuration and status (including WiFi signal strength, settings, noise, error rates, statistics, etc.) are available to the iHub via WiFi. Alternatively, the provisioning and accessibility of configuration and status information of the WiSPIM are accessed using the security panel (e.g., keypad-based menus, etc.). The WiSPIM also supports over-the-air WiSPIM firmware upgrades.
  • WiFi credentials e.g., authentication keys/passwords, IP address, configuration, settings, etc.
  • the WiSPIM includes management functionality in which the WiSPIM configuration and status (including WiFi signal strength, settings, noise, error rates, statistics, etc.) are available to the iHub via WiFi.
  • the provisioning and accessibility of configuration and status information of the WiSPIM are accessed
  • the WiSPIM receives power from the security panel/SPIM, power adaptor, and/or battery, but is not so limited.
  • the WiSPIM of an embodiment includes a low-power mode that functions to provide an optional WiSPIM sleep/power-off upon panel AC-power failure, with or without delay.
  • the WiSPIM of an embodiment includes an optional polling proxy that supports off-loading of panel/SPIM polling to the WiSPIM.
  • the optional polling proxy is included or used, for example, when the communication protocol used by the remote system-to-SPIM or remote system-to-legacy system is such that polling over the WiFi link is very inefficient, or error prone, or there are tight timing constraints that cannot be efficiently met on a WiFi link.
  • Security panels and SPIMs from various manufacturers present the iHub with different interface protocols, APIs, and methods of message exchange.
  • Interfaces that are asynchronous in nature are well suited to running over long-delay networks (e.g., Internet, cellular) or local shared-media networks (e.g., WiFi, Ethernet).
  • long-delay networks e.g., Internet, cellular
  • local shared-media networks e.g., WiFi, Ethernet
  • security panel/SPIM interfaces that are synchronous in nature where the iHub must continually query or prompt the security panel/SPIM for messages or data
  • a security panel/SPIM interface that requires polling can cause timing, resource utilization, and reliability problems.
  • the WiSPIM realizes improved efficiency regarding these issues by off-loading the security panel/SPIM polling function that is currently performed by iHub daemons to the WiSPIM, a feature that is referred to herein as the WiSPIM “Polling Proxy.”
  • the WiSPIM acts as one or more of an injection proxy, rewrite proxy, and/or full proxy, but is not limited to these functions. Each of these capabilities of the WiSPIM is described in detail herein.
  • the WiSPIM is a transparent pass-through for non-polling-related messages between the iHub and security panel/SPIM.
  • the polling proxy injects the required polling-related commands into the message stream that arrives from iHub via WiFi, and sends the modified message stream onwards to the security panel/SPIM over the serial line.
  • the polling proxy filters out any benign polling-related responses (that is, those messages that are not of interest to iHub) from the message stream received from the security panel/SPIM over the serial line, and forwards the modified stream onwards to the iHub via WiFi.
  • the WiSPIM is able to act in this injection-proxy fashion when the polling-related messages do not contain a message sequence number that is managed by iHub.
  • the WiSPIM provides functionality similar to that provided in its role as the injection proxy, except the polling proxy rewrites the sequence numbers of all messages that pass-through the WiSPIM.
  • the WiSPIM Polling Proxy manages separate sets of sequence numbers, so that the sequence count appears continuous to both the security panel/SPIM and iHub.
  • the WiSPIM polling proxy may act as an intermediary between the iHub and security panel/SPIM, providing message processing, logic, protocol translation, message timing adjustments, and/or message buffering or queuing.
  • messages from the iHub and/or the security panel/SPIM are received by the WiSPIM, parsed, and then acted upon.
  • the WiSPIM may receive from the iHub a query of the full sensor-array state (i.e., a request to see the state of all the panel's sensors), and then the WiSPIM may send the security panel/SPIM individual queries on each of the sensors in the system. The WiSPIM then packages the results into a single sensor state array response to the iHub.
  • the WiSPIM may receive a query from the iHub to see if there have been any user-account modifications since the last query.
  • the WiSPIM polls the panel/SPIM for user-account data, compares the panel/SPIM responses to a WiSPIM cache of user-account data, and then reports back to the iHub if there were any changes in the data.
  • the WiSPIM polling proxy can be explicitly enabled by configuration parameters that are set by the iHub. Else, the WiSPIM polling proxy can be run in “auto-sense” mode, where the WiSPIM inspects the message traffic to-or-from the iHub, and determines the type of security panel/SPIM that is connected to the WiSPIM, and the need for the WiSPIM to perform polling on behalf of the iHub. In auto-sense mode, if the WiSPIM detects that the panel type requires polling, and the WiSPIM sees that the iHub is not performing the required polling, then the WiSPIM polling proxy is automatically enabled.
  • the WiSPIM continuously polls the security panel/SPIM over the serial line interface, looking for panel/SPIM messages or data that is of interest to the iHub.
  • the WiSPIM asynchronously sends the message or data to the iHub over a socket connection on the WiFi network.
  • the WiSPIM polling proxy can perform one or both of message polling and data polling.
  • message polling some security panels and SPIMs present master/slave interfaces, where the iHub (master) must always query the panel/SPIM (slave) for new messages.
  • the new messages themselves may be any of a variety of state changes (arms/disarms, sensor trips, etc.), mode changes (installer programming lead-out, entering walk-test mode, etc.), resource changes (sensors added, users deleted, etc.), responses to iHub commands (arm command was successful, sensor bypass attempt failure, etc), message management (command acknowledgement, command error, etc), or other panel/SPIM communication.
  • the WiSPIM polling proxy interacts with the security panel/SPIM, continuously providing the polling commands that prompt for new messages to be sent from the panel/SPIM.
  • all security panels maintain internal state data (e.g., arm levels, outstanding alarms and trouble conditions, etc.) and resource data (e.g., collections of sensor, access-code, devices, etc.).
  • changes to the state and/or resource data of the security panel/SPIM may not be asynchronously sent to the iHub.
  • the iHub polls (that is, periodically queries) the security panel/SPIM.
  • State and/or resource data is received by the iHub, the data is compared to a cache of the data from a previous query, and state and/or resource changes are inferred.
  • the WiSPIM polling proxy can perform this data polling instead.
  • the WiSPIM polling proxy maintains internal statistics (counts over a given period), including but not limited to polls performed, commands received from the iHub, messages/data of interest forwarded to the iHub, errors encountered, message retries needed, etc. These statistics are available to the iHub in-band with the security panel/SPIM message stream, or out-of-band on a management socket connection.
  • the WiSPIM polling proxy maintains internal configuration parameters, including but not limited to enable/disable, auto-sense on/off, security panel and SPIM type, polling type and level, polling commands used, polling rate, statistic period, etc. These parameters may be configured by the iHub either in-band with the security panel/SPIM message stream, or out-of-band on a management socket connection.
  • FIG. 4 is a block diagram of components of the integrated security system 100 , under an embodiment. Following is a more detailed description of the components.
  • the iConnect servers 104 support a diverse collection of clients 120 ranging from mobile devices, to PCs, to in-home security devices, to a service provider's internal systems. Most clients 120 are used by end-users, but there are also a number of clients 120 that are used to operate the service.
  • Clients 120 used by end-users of the integrated security system 100 include, but are not limited to, the following:
  • the iConnect servers 104 support PC browser-based Service Management clients that manage the ongoing operation of the overall service. These clients run applications that handle tasks such as provisioning, service monitoring, customer support and reporting.
  • server components of the iConnect servers 104 of an embodiment including, but not limited to, the following: Business Components which manage information about all of the home security and self-monitoring devices; End-User Application Components which display that information for users and access the Business Components via published XML APIs; and Service Management Application Components which enable operators to administer the service (these components also access the Business Components via the XML APIs, and also via published SNMP MIBs).
  • the server components provide access to, and management of, the objects associated with an integrated security system installation.
  • the top-level object is the “network.” It is a location where a gateway 102 is located, and is also commonly referred to as a site or premises; the premises can include any type of structure (e.g., home, office, warehouse, etc.) at which a gateway 102 is located. Users can only access the networks to which they have been granted permission.
  • Every object monitored by the gateway 102 is called a device. Devices include the sensors, cameras, home security panels and automation devices, as well as the controller or processor-based device running the gateway applications.
  • Automations define actions that occur as a result of a change in state of a device. For example, take a picture with the front entry camera when the front door sensor changes to “open”. Notifications are messages sent to users to indicate that something has occurred, such as the front door going to “open” state, or has not occurred (referred to as an iWatch notification). Schedules define changes in device states that are to take place at predefined days and times. For example, set the security panel to “Armed” mode every weeknight at 11:00 pm.
  • the iConnect Business Components are responsible for orchestrating all of the low-level service management activities for the integrated security system service. They define all of the users and devices associated with a network (site), analyze how the devices interact, and trigger associated actions (such as sending notifications to users). All changes in device states are monitored and logged. The Business Components also manage all interactions with external systems as required, including sending alarms and other related self-monitoring data to the home security Central Monitoring System (CMS) 199 .
  • CMS Central Monitoring System
  • the Business Components are implemented as portable Java J2EE Servlets, but are not so limited.
  • Additional iConnect Business Components handle direct communications with certain clients and other systems, for example:
  • the iConnect Business Components store information about the objects that they manage in the iControl Service Database 240 and in the iControl Content Store 242 .
  • the iControl Content Store is used to store media objects like video, photos and widget content, while the Service Database stores information about users, networks, and devices. Database interaction is performed via a JDBC interface.
  • the Business Components manage all data storage and retrieval.
  • the iControl Business Components provide web services-based APIs that application components use to access the Business Components' capabilities. Functions of application components include presenting integrated security system service data to end-users, performing administrative duties, and integrating with external systems and back-office applications.
  • the primary published APIs for the iConnect Business Components include, but are not limited to, the following:
  • Each API of an embodiment includes three modes of access that include Java API, REST API, or XML API, but the embodiment is not so limited.
  • the XML APIs are published as web services so that they can be easily accessed by applications or servers over a network.
  • the Java APIs are a programmer-friendly wrapper for the XML APIs.
  • the REST APIs are accessible through Javascriptor Java and provide an extremely flexibile approach to building user interfaces or new application components. Application components and integrations written in Java should generally use the Java APIs rather than the XML APIs directly.
  • the iConnect Business Components also have an XML-based interface 260 for quickly adding support for new devices to the integrated security system.
  • This interface 260 referred to as DeviceConnect 260 , is a flexible, standards-based mechanism for defining the properties of new devices and how they can be managed. Although the format is flexible enough to allow the addition of any type of future device, pre-defined XML profiles are currently available for adding common types of devices such as sensors (SensorConnect), home security panels (PanelConnect) and IP cameras (CameraConnect).
  • the iConnect End-User Application Components deliver the user interfaces that run on the different types of clients supported by the integrated security system service.
  • the components are written in portable Java J2EE technology (e.g., as Java Servlets, as JavaServer Pages (JSPs), etc.) and they all interact with the iControl Business Components via the published APIs.
  • JSPs JavaServer Pages
  • End-User Application Components generate CSS-based HTML/JavaScript that is displayed on the target client. These applications can be dynamically branded with partner-specific logos and URL links (such as Customer Support, etc.).
  • End-User Application Components of an embodiment include, but are not limited to, the following:
  • Service Management Application Components are responsible for overall management of the service. These pre-defined applications, referred to as Service Management Application Components, are configured to offer off-the-shelf solutions for production management of the integrated security system service including provisioning, overall service monitoring, customer support, and reporting, for example.
  • the Service Management Application Components of an embodiment include, but are not limited to, the following:
  • the iConnect servers 104 also support custom-built integrations with a service provider's existing OSS/BSS, CSR and service delivery systems 290 . Such systems can access the iConnect web services XML API to transfer data to and from the iConnect servers 104 . These types of integrations can compliment or replace the PC browser-based Service Management applications, depending on service provider needs.
  • the integrated security system of an embodiment includes a gateway, or iHub.
  • the gateway of an embodiment includes a device that is deployed in the home or business and couples or connects the various third-party cameras, home security panels, sensors and devices to the iConnect server over a WAN connection as described in detail herein.
  • the gateway couples to the home network and/or a cellular network and communicates directly with the home security panel in both wired and wireless sensor installations.
  • the gateway is configured to be low-cost, reliable and thin so that it complements the integrated security system network-based architecture.
  • the gateway supports various wireless protocols and can interconnect with a wide range of home security control panels. Service providers and users can then extend the system's capabilities by adding IP cameras, lighting modules and additional security devices.
  • the gateway is configurable to be integrated into many consumer appliances, including set-top boxes, routers and security panels. The small and efficient footprint of the gateway enables this portability and versatility, thereby simplifying and reducing the overall cost of the deployment.
  • FIG. 5 is a block diagram of the gateway 102 including gateway software or applications, under an embodiment.
  • the gateway software architecture is relatively thin and efficient, thereby simplifying its integration into other consumer appliances such as set-top boxes, routers, touch screens and security panels.
  • the software architecture also provides a high degree of security against unauthorized access. This section describes the various key components of the gateway software architecture.
  • the gateway application layer 302 is the main program that orchestrates the operations performed by the gateway.
  • the Security Engine 304 provides robust protection against intentional and unintentional intrusion into the integrated security system network from the outside world (both from inside the premises as well as from the WAN).
  • the Security Engine 304 of an embodiment comprises one or more sub-modules or components that perform functions including, but not limited to, the following:
  • the security manager can be upgraded “over the air” to provide new and better security for communications between the iConnect server and the gateway application, and locally at the premises to remove any risk of eavesdropping on camera communications.
  • a Remote Firmware Download module 306 allows for seamless and secure updates to the gateway firmware through the iControl Maintenance Application on the server 104 , providing a transparent, hassle-free mechanism for the service provider to deploy new features and bug fixes to the installed user base.
  • the firmware download mechanism is tolerant of connection loss, power interruption and user interventions (both intentional and unintentional). Such robustness reduces down time and customer support issues.
  • Gateway firmware can be remotely download either for one gateway at a time, a group of gateways, or in batches.
  • the Automations engine 308 manages the user-defined rules of interaction between the different devices (e.g. when door opens turn on the light). Though the automation rules are programmed and reside at the portal/server level, they are cached at the gateway level in order to provide short latency between device triggers and actions.
  • DeviceConnect 310 includes definitions of all supported devices (e.g., cameras, security panels, sensors, etc.) using a standardized plug-in architecture.
  • the DeviceConnect module 310 offers an interface that can be used to quickly add support for any new device as well as enabling interoperability between devices that use different technologies/protocols. For common device types, pre-defined sub-modules have been defined, making supporting new devices of these types even easier.
  • SensorConnect 312 is provided for adding new sensors, CameraConnect 316 for adding IP cameras, and PanelConnect 314 for adding home security panels.
  • the Schedules engine 318 is responsible for executing the user defined schedules (e.g., take a picture every five minutes; every day at 8 am set temperature to 65 degrees Fahrenheit, etc.). Though the schedules are programmed and reside at the iConnect server level they are sent to the scheduler within the gateway application. The Schedules Engine 318 then interfaces with SensorConnect 312 to ensure that scheduled events occur at precisely the desired time.
  • the Schedules Engine 318 then interfaces with SensorConnect 312 to ensure that scheduled events occur at precisely the desired time.
  • the Device Management module 320 is in charge of all discovery, installation and configuration of both wired and wireless IP devices (e.g., cameras, etc.) coupled or connected to the system.
  • Networked IP devices such as those used in the integrated security system, require user configuration of many IP and security parameters—to simplify the user experience and reduce the customer support burden, the device management module of an embodiment handles the details of this configuration.
  • the device management module also manages the video routing module described below.
  • the video routing engine 322 is responsible for delivering seamless video streams to the user with zero-configuration. Through a multi-step, staged approach the video routing engine uses a combination of UPnP port-forwarding, relay server routing and STUN/TURN peer-to-peer routing.
  • FIG. 6 is a block diagram of components of the gateway 102 , under an embodiment.
  • the gateway 102 can use any of a number of processors 402 , due to the small footprint of the gateway application firmware.
  • the gateway could include the Broadcom BCM5354 as the processor for example.
  • the gateway 102 includes memory (e.g., FLASH 404 , RAM 406 , etc.) and any number of input/output (I/O) ports 408 .
  • the gateway 102 of an embodiment can communicate with the iConnect server using a number of communication types and/or protocols, for example Broadband 412 , GPRS (or any cellular network such as 3G, LTE, etc.) 414 and/or Public Switched Telephone Network (PTSN) 416 to name a few.
  • broadband communication 412 is the primary means of connection between the gateway 102 and the iConnect server 104 and the GPRS/CDMA/3G 414 and/or PSTN 416 interfaces acts as back-up for fault tolerance in case the user's broadband connection fails for whatever reason, but the embodiment is not so limited.
  • cellular communications is the primary means of communications between the Gateway and the servers and CMS, but is not so limited.
  • the gateway 102 is protocol-agnostic and technology-agnostic and as such can easily support almost any device networking protocol.
  • the gateway 102 can, for example, support GE and Honeywell security RF protocols 422 , Z-Wave 424 , serial (RS232 and RS485) 426 for direct connection to security panels as well as WiFi 428 (802.11b/g) for communication to WiFi cameras.
  • the integrated security system includes couplings or connections among a variety of IP devices or components, and the device management module is in charge of the discovery, installation and configuration of the IP devices coupled or connected to the system, as described above.
  • the integrated security system of an embodiment uses a “sandbox” network to discover and manage all IP devices coupled or connected as components of the system.
  • the IP devices of an embodiment include wired devices, wireless devices, cameras, interactive touchscreens, and security panels to name a few. These devices can be wired via ethernet cable or Wifi devices, all of which are secured within the sandbox network, as described below.
  • the “sandbox” network is described in detail below.
  • FIG. 7 is a block diagram 500 of network or premise device integration with a premise network 250 , under an embodiment.
  • network devices 255 - 257 are coupled to the gateway 102 using a secure network coupling or connection such as SSL over an encrypted 802.11 link (utilizing for example WPA-2 security for the wireless encryption) or Z-Wave/Zigbee RF communications.
  • the network coupling or connection between the gateway 102 and the network devices 255 - 257 is a private coupling or connection in that it is segregated from any other network couplings or connections.
  • the gateway 102 is coupled to the premise router/firewall 252 via a coupling with a premise LAN 250 .
  • the premise router/firewall 252 is coupled to a broadband modem 251 , and the broadband modem 251 is coupled to a WAN 200 or other network outside the premise.
  • the gateway 102 thus enables or forms a separate wireless network, or sub-network, that includes some number of devices and is coupled or connected to the LAN 250 of the host premises.
  • the gateway sub-network can include, but is not limited to, any number of other devices like WiFi IP cameras, security panels (e.g., IP-enabled), thermostats, lighting device, locks, and security touchscreens, to name a few.
  • the gateway 102 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250 /WAN 200 , but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the gateway 102 .
  • FIG. 8 is a block diagram 600 of network or premise device integration with a premise network 250 , under an alternative embodiment.
  • the network or premise devices 255 - 257 are coupled to the gateway 102 .
  • the network coupling or connection between the gateway 102 and the network devices 255 - 257 is a private coupling or connection in that it is segregated from any other network couplings or connections.
  • the gateway 102 is coupled or connected between the premise router/firewall 252 and the broadband modem 251 .
  • the broadband modem 251 is coupled to a WAN 200 or other network outside the premise, while the premise router/firewall 252 is coupled to a premise LAN 250 .
  • the gateway 102 can be configured or function as the premise router routing specified data between the outside network (e.g., WAN 200 ) and the premise router/firewall 252 of the LAN 250 .
  • the gateway 102 in this configuration enables or forms a separate wireless network, or sub-network, that includes the network or premise devices 255 - 257 and is coupled or connected between the LAN 250 of the host premises and the WAN 200 .
  • the gateway sub-network can include, but is not limited to, any number of network or premise devices 255 - 257 like WiFi IP cameras, security panels (e.g., IP-enabled), and security touchscreens, to name a few.
  • the gateway 102 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250 /WAN 200 , but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the gateway 102 .
  • IP device integration The integrated security system is not limited to the type, number and/or combination of IP devices shown and described in these examples, and any type, number and/or combination of IP devices is contemplated within the scope of this disclosure as capable of being integrated with the premise network.
  • the integrated security system of an embodiment includes a touchscreen (also referred to as the iControl touchscreen or integrated security system touchscreen), as described above, which provides core security keypad functionality, content management and presentation, and embedded systems design.
  • the networked security touchscreen system of an embodiment enables a consumer or security provider to easily and automatically install, configure and manage the security system and touchscreen located at a customer premise. Using this system the customer may access and control the local security system, local IP devices such as cameras, local sensors and control devices (such as lighting controls or pipe freeze sensors), as well as the local security system panel and associated security sensors (such as door/window, motion, and smoke detectors).
  • the customer premise may be a home, business, and/or other location equipped with a wired or wireless broadband IP connection.
  • the system of an embodiment includes a touchscreen with a configurable software user interface and/or a gateway device (e.g., iHub) that couples or connects to a premise security panel through a wired or wireless connection, and a remote server that provides access to content and information from the premises devices to a user when they are remote from the home.
  • the touchscreen supports broadband and/or WAN wireless connectivity.
  • the touchscreen incorporates an IP broadband connection (e.g., Wifi radio, Ethernet port, etc.), and/or a cellular radio (e.g., GPRS/GSM, CDMA, WiMax, etc.).
  • the touchscreen described herein can be used as one or more of a security system interface panel and a network user interface (UI) that provides an interface to interact with a network (e.g., LAN, WAN, internet, etc.).
  • a network e.g., LAN, WAN, internet, etc.
  • the touchscreen of an embodiment provides an integrated touchscreen and security panel as an all-in-one device. Once integrated using the touchscreen, the touchscreen and a security panel of a premise security system become physically co-located in one device, and the functionality of both may even be co-resident on the same CPU and memory (though this is not required).
  • the touchscreen of an embodiment also provides an integrated IP video and touchscreen UI.
  • the touchscreen supports one or more standard video CODECs/players (e.g., H.264, Flash Video, MOV, MPEG4, M-JPEG, etc.).
  • the touchscreen UI then provides a mechanism (such as a camera or video widget) to play video.
  • the video is streamed live from an IP video camera.
  • the video comprises video clips or photos sent from an IP camera or from a remote location.
  • the touchscreen of an embodiment provides a configurable user interface system that includes a configuration supporting use as a security touchscreen.
  • the touchscreen utilizes a modular user interface that allows components to be modified easily by a service provider, an installer, or even the end user. Examples of such a modular approach include using Flash widgets, HTML-based widgets, or other downloadable code modules such that the user interface of the touchscreen can be updated and modified while the application is running.
  • the touchscreen user interface modules can be downloaded over the Internet. For example, a new security configuration widget can be downloaded from a standard web server, and the touchscreen then loads such configuration app into memory, and inserts it in place of the old security configuration widget.
  • the touchscreen of an embodiment is configured to provide a self-install user interface.
  • Embodiments of the networked security touchscreen system described herein include a touchscreen device with a user interface that includes a security toolbar providing one or more functions including arm, disarm, panic, medic, and alert.
  • the touchscreen therefore includes at least one screen having a separate region of the screen dedicated to a security toolbar.
  • the security toolbar of an embodiment is present in the dedicated region at all times that the screen is active.
  • the touchscreen of an embodiment includes a home screen having a separate region of the screen allocated to managing home-based functions.
  • the home-based functions of an embodiment include managing, viewing, and/or controlling IP video cameras.
  • regions of the home screen are allocated in the form of widget icons; these widget icons (e.g. for cameras, thermostats, lighting, etc) provide functionality for managing home systems. So, for example, a displayed camera icon, when selected, launches a Camera Widget, and the Camera widget in turn provides access to video from one or more cameras, as well as providing the user with relevant camera controls (take a picture, focus the camera, etc.)
  • the touchscreen of an embodiment includes a home screen having a separate region of the screen allocated to managing, viewing, and/or controlling internet-based content or applications.
  • the Widget Manager UI presents a region of the home screen (up to and including the entire home screen) where internet widgets icons such as weather, sports, etc. may be accessed). Each of these icons may be selected to launch their respective content services.
  • the touchscreen of an embodiment is integrated into a premise network using the gateway, as described above.
  • the gateway as described herein functions to enable a separate wireless network, or sub-network, that is coupled, connected, or integrated with another network (e.g., WAN, LAN of the host premises, etc.).
  • the sub-network enabled by the gateway optimizes the installation process for IP devices, like the touchscreen, that couple or connect to the sub-network by segregating these IP devices from other such devices on the network.
  • This segregation of the IP devices of the sub-network further enables separate security and privacy policies to be implemented for these IP devices so that, where the IP devices are dedicated to specific functions (e.g., security), the security and privacy policies can be tailored specifically for the specific functions.
  • the gateway and the sub-network it forms enables the segregation of data traffic, resulting in faster and more efficient data flow between components of the host network, components of the sub-network, and between components of the sub-network and components of the network.
  • the touchscreen of an embodiment includes a core functional embedded system that includes an embedded operating system, required hardware drivers, and an open system interface to name a few.
  • the core functional embedded system can be provided by or as a component of a conventional security system (e.g., security system available from GE Security). These core functional units are used with components of the integrated security system as described herein. Note that portions of the touchscreen description below may include reference to a host premise security system (e.g., GE security system), but these references are included only as an example and do not limit the touchscreen to integration with any particular security system.
  • a reduced memory footprint version of embedded Linux forms the core operating system in an embodiment, and provides basic TCP/IP stack and memory management functions, along with a basic set of low-level graphics primitives.
  • a set of device drivers is also provided or included that offer low-level hardware and network interfaces.
  • an interface to the RS 485 bus is included that couples or connects to the security system panel (e.g., GE Concord panel).
  • the interface may, for example, implement the Superbus 2000 protocol, which can then be utilized by the more comprehensive transaction-level security functions implemented in PanelConnect technology (e.g SetAlarmLevel (int level, int partition, char*accessCode)).
  • Power control drivers are also provided.
  • FIG. 9 is a block diagram of a touchscreen 700 of the integrated security system, under an embodiment.
  • the touchscreen 700 generally includes an application/presentation layer 702 with a resident application 704 , and a core engine 706 .
  • the touchscreen 700 also includes one or more of the following, but is not so limited: applications of premium services 710 , widgets 712 , a caching proxy 714 , network security 716 , network interface 718 , security object 720 , applications supporting devices 722 , PanelConnect API 724 , a gateway interface 726 , and one or more ports 728 .
  • the touchscreen when configured as a home security device, includes but is not limited to the following application or software modules: RS 485 and/or RS-232 bus security protocols to conventional home security system panel (e.g., GE Concord panel); functional home security classes and interfaces (e.g. Panel ARM state, Sensor status, etc.); Application/Presentation layer or engine; Resident Application; Consumer Home Security Application; installer home security application; core engine; and System bootloader/Software Updater.
  • the core Application engine and system bootloader can also be used to support other advanced content and applications. This provides a seamless interaction between the premise security application and other optional services such as weather widgets or IP cameras.
  • An alternative configuration of the touchscreen includes a first Application engine for premise security and a second Application engine for all other applications.
  • the integrated security system application engine supports content standards such as HTML, XML, Flash, etc. and enables a rich consumer experience for all ‘widgets’, whether security-based or not.
  • the touchscreen thus provides service providers the ability to use web content creation and management tools to build and download any ‘widgets’ regardless of their functionality.
  • Security Applications have specific low-level functional requirements in order to interface with the premise security system, these applications make use of the same fundamental application facilities as any other ‘widget’, application facilities that include graphical layout, interactivity, application handoff, screen management, and network interfaces, to name a few.
  • widgets are created by web developers and hosted on the integrated security system Content Manager (and stored in the Content Store database).
  • the server component caches the widgets and offers them to consumers through the web-based integrated security system provisioning system.
  • the servers interact with the advanced touchscreen using HTTPS interfaces controlled by the core engine and dynamically download widgets and updates as needed to be cached on the touchscreen.
  • widgets can be accessed directly over a network such as the Internet without needing to go through the iControl Content Manager
  • the touchscreen system is built on a tiered architecture, with defined interfaces between the Application/Presentation Layer (the Application Engine) on the top, the Core Engine in the middle, and the security panel and gateway APIs at the lower level.
  • the architecture is configured to provide maximum flexibility and ease of maintenance.
  • FIG. 10 is an example screenshot 800 of a networked security touchscreen, under an embodiment.
  • This example screenshot 800 includes three interfaces or user interface (UI) components 802 - 806 , but is not so limited.
  • UI user interface
  • a first UI 802 of the touchscreen includes icons by which a user controls or accesses functions and/or components of the security system (e.g., “Main”, “Panic”, “Medic”, “Fire”, state of the premise alarm system (e.g., disarmed, armed, etc.), etc.); the first UI 802 , which is also referred to herein as a security interface, is always presented on the touchscreen.
  • a second UI 804 of the touchscreen includes icons by which a user selects or interacts with services and other network content (e.g., clock, calendar, weather, stocks, news, sports, photos, maps, music, etc.) that is accessible via the touchscreen.
  • the second UI 804 is also referred to herein as a network interface or content interface.
  • a third UI 806 of the touchscreen includes icons by which a user selects or interacts with additional services or components (e.g., intercom control, security, cameras coupled to the system in particular regions (e.g., front door, baby, etc.) available via the touchscreen.
  • additional services or components e.g., intercom control, security, cameras coupled to the system in particular regions (e.g., front door, baby, etc.) available via the touchscreen.
  • a component of the application engine is the Presentation Engine, which includes a set of libraries that implement the standards-based widget content (e.g., XML, HTML, JavaScript, Flash) layout and interactivity.
  • This engine provides the widget with interfaces to dynamically load both graphics and application logic from third parties, support high level data description language as well as standard graphic formats.
  • the set of web content-based functionality available to a widget developer is extended by specific touchscreen functions implemented as local web services by the Core Engine.
  • the resident application of the touchscreen is the master service that controls the interaction of all widgets in the system, and enforces the business and security rules required by the service provider. For example, the resident application determines the priority of widgets, thereby enabling a home security widget to override resource requests from a less critical widget (e.g. a weather widget). The resident application also monitors widget behavior, and responds to client or server requests for cache updates.
  • a less critical widget e.g. a weather widget
  • the core engine of the touchscreen manages interaction with other components of the integrated security system, and provides an interface through which the resident application and authorized widgets can get information about the home security system, set alarms, install sensors, etc.
  • the Core Engine's main interactions are through the PanelConnect API, which handles all communication with the security panel, and the gateway Interface, which handles communication with the gateway.
  • both the iHub Interface and PanelConnect API are resident and operating on the touchscreen.
  • the PanelConnect API runs on the gateway or other device that provides security system interaction and is accessed by the touchscreen through a web services interface.
  • the Core Engine also handles application and service level persistent and cached memory functions, as well as the dynamic provisioning of content and widgets, including but not limited to: flash memory management, local widget and content caching, widget version management (download, cache flush new/old content versions), as well as the caching and synchronization of user preferences.
  • the Core engine incorporates the bootloader functionality that is responsible for maintaining a consistent software image on the touchscreen, and acts as the client agent for all software updates.
  • the bootloader is configured to ensure full update redundancy so that unsuccessful downloads cannot corrupt the integrated security system.
  • Video management is provided as a set of web services by the Core Engine. Video management includes the retrieval and playback of local video feeds as well as remote control and management of cameras (all through iControl CameraConnect technology).
  • Both the high level application layer and the mid-level core engine of the touchscreen can make calls to the network. Any call to the network made by the application layer is automatically handed off to a local caching proxy, which determines whether the request should be handled locally. Many of the requests from the application layer are web services API requests; although such requests could be satisfied by the iControl servers, they are handled directly by the touchscreen and the gateway. Requests that get through the caching proxy are checked against a white list of acceptable sites, and, if they match, are sent off through the network interface to the gateway. Included in the Network Subsystem is a set of network services including HTTP, HTTPS, and server-level authentication functions to manage the secure client-server interface. Storage and management of certificates is incorporated as a part of the network services layer.
  • Server components of the integrated security system servers support interactive content services on the touchscreen. These server components include, but are not limited to the content manager, registry manager, network manager, and global registry, each of which is described herein.
  • the Content Manager oversees aspects of handling widget data and raw content on the touchscreen. Once created and validated by the service provider, widgets are ‘ingested’ to the Content Manager, and then become available as downloadable services through the integrated security system Content Management APIs.
  • the Content manager maintains versions and timestamp information, and connects to the raw data contained in the backend Content Store database. When a widget is updated (or new content becomes available) all clients registering interest in a widget are systematically updated as needed (a process that can be configured at an account, locale, or system-wide level).
  • the Registry Manager handles user data, and provisioning accounts, including information about widgets the user has decided to install, and the user preferences for these widgets.
  • the Network Manager handles getting and setting state for all devices on the integrated security system network (e.g., sensors, panels, cameras, etc.).
  • the Network manager synchronizes with the gateway, the advanced touchscreen, and the subscriber database.
  • the Global Registry is a primary starting point server for all client services, and is a logical referral service that abstracts specific server locations/addresses from clients (touchscreen, gateway 102 , desktop widgets, etc.). This approach enables easy scaling/migration of server farms.
  • the touchscreen of an embodiment operates wirelessly with a premise security system.
  • the touchscreen of an embodiment incorporates an RF transceiver component that either communicates directly with the sensors and/or security panel over the panel's proprietary RF frequency, or the touchscreen communicates wirelessly to the gateway over 802.11, Ethernet, or other IP-based communications channel, as described in detail herein.
  • the gateway implements the PanelConnect interface and communicates directly to the security panel and/or sensors over wireless or wired networks as described in detail above.
  • the touchscreen of an embodiment is configured to operate with multiple security systems through the use of an abstracted security system interface.
  • the PanelConnect API can be configured to support a plurality of proprietary security system interfaces, either simultaneously or individually as described herein.
  • the touchscreen incorporates multiple physical interfaces to security panels (e.g. GE Security RS-485, Honeywell RF, etc.) in addition to the PanelConnect API implemented to support multiple security interfaces.
  • security panels e.g. GE Security RS-485, Honeywell RF, etc.
  • the change needed to support this in PanelConnect is a configuration parameter specifying the panel type connection that is being utilized.
  • the ‘panelType’ parameter is used by the setARMState function (and in practice by all of the PanelConnect functions) to select an algorithm appropriate to the specific panel out of a plurality of alogorithms.
  • the touchscreen of an embodiment is self-installable. Consequently, the touchscreen provides a ‘wizard’ approach similar to that used in traditional computer installations (e.g. InstallShield).
  • the wizard can be resident on the touchscreen, accessible through a web interface, or both.
  • the service provider can associate devices (sensors, touchscreens, security panels, lighting controls, etc.) remotely using a web-based administrator interface.
  • the touchscreen of an embodiment includes a battery backup system for a security touchscreen.
  • the touchscreen incorporates a standard Li-ion or other battery and charging circuitry to allow continued operation in the event of a power outage.
  • the battery is physically located and connected within the touchscreen enclosure.
  • the battery is located as a part of the power transformer, or in between the power transformer and the touchscreen.
  • the example configurations of the integrated security system described above with reference to FIGS. 7 and 8 include a gateway that is a separate device, and the touchscreen couples to the gateway.
  • the gateway device and its functionality can be incorporated into the touchscreen so that the device management module, which is now a component of or included in the touchscreen, is in charge of the discovery, installation and configuration of the IP devices coupled or connected to the system, as described above.
  • the integrated security system with the integrated touchscreen/gateway uses the same “sandbox” network to discover and manage all IP devices coupled or connected as components of the system.
  • the touchscreen of this alternative embodiment integrates the components of the gateway with the components of the touchscreen as described herein. More specifically, the touchscreen of this alternative embodiment includes software or applications described above with reference to FIG. 5 . In this alternative embodiment, the touchscreen includes the gateway application layer 302 as the main program that orchestrates the operations performed by the gateway.
  • a Security Engine 304 of the touchscreen provides robust protection against intentional and unintentional intrusion into the integrated security system network from the outside world (both from inside the premises as well as from the WAN).
  • the Security Engine 304 of an embodiment comprises one or more sub-modules or components that perform functions including, but not limited to, the following:
  • the security manager can be upgraded “over the air” to provide new and better security for communications between the iConnect server and the gateway application, and locally at the premises to remove any risk of eavesdropping on camera communications.
  • a Remote Firmware Download module 306 of the touchscreen allows for seamless and secure updates to the gateway firmware through the iControl Maintenance Application on the server 104 , providing a transparent, hassle-free mechanism for the service provider to deploy new features and bug fixes to the installed user base.
  • the firmware download mechanism is tolerant of connection loss, power interruption and user interventions (both intentional and unintentional). Such robustness reduces down time and customer support issues.
  • Touchscreen firmware can be remotely download either for one touchscreen at a time, a group of touchscreen, or in batches.
  • the Automations engine 308 of the touchscreen manages the user-defined rules of interaction between the different devices (e.g. when door opens turn on the light). Though the automation rules are programmed and reside at the portal/server level, they are cached at the gateway level in order to provide short latency between device triggers and actions.
  • DeviceConnect 310 of the touchscreen touchscreen includes definitions of all supported devices (e.g., cameras, security panels, sensors, etc.) using a standardized plug-in architecture.
  • the DeviceConnect module 310 offers an interface that can be used to quickly add support for any new device as well as enabling interoperability between devices that use different technologies/protocols. For common device types, pre-defined sub-modules have been defined, making supporting new devices of these types even easier.
  • SensorConnect 312 is provided for adding new sensors, CameraConnect 316 for adding IP cameras, and PanelConnect 314 for adding home security panels.
  • the Schedules engine 318 of the touchscreen is responsible for executing the user defined schedules (e.g., take a picture every five minutes; every day at 8 am set temperature to 65 degrees Fahrenheit, etc.). Though the schedules are programmed and reside at the iConnect server level they are sent to the scheduler within the gateway application of the touchscreen. The Schedules Engine 318 then interfaces with SensorConnect 312 to ensure that scheduled events occur at precisely the desired time.
  • the Schedules Engine 318 then interfaces with SensorConnect 312 to ensure that scheduled events occur at precisely the desired time.
  • the Device Management module 320 of the touchscreen is in charge of all discovery, installation and configuration of both wired and wireless IP devices (e.g., cameras, etc.) coupled or connected to the system.
  • Networked IP devices such as those used in the integrated security system, require user configuration of many IP and security parameters, and the device management module of an embodiment handles the details of this configuration.
  • the device management module also manages the video routing module described below.
  • the video routing engine 322 of the touchscreen is responsible for delivering seamless video streams to the user with zero-configuration.
  • the video routing engine uses a combination of UPnP port-forwarding, relay server routing and STUN/TURN peer-to-peer routing.
  • the video routing engine is described in detail in the Related applications.
  • FIG. 11 is a block diagram 900 of network or premise device integration with a premise network 250 , under an embodiment.
  • network devices 255 , 256 , 957 are coupled to the touchscreen 902 using a secure network connection such as SSL over an encrypted 802.11 link (utilizing for example WPA-2 security for the wireless encryption), and the touchscreen 902 coupled to the premise router/firewall 252 via a coupling with a premise LAN 250 .
  • the premise router/firewall 252 is coupled to a broadband modem 251
  • the broadband modem 251 is coupled to a WAN 200 or other network outside the premise.
  • the touchscreen 902 thus enables or forms a separate wireless network, or sub-network, that includes some number of devices and is coupled or connected to the LAN 250 of the host premises.
  • the touchscreen sub-network can include, but is not limited to, any number of other devices like WiFi IP cameras, security panels (e.g., IP-enabled), and IP devices, to name a few.
  • the touchscreen 902 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250 /WAN 200 , but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the touchscreen 902 .
  • FIG. 12 is a block diagram 1000 of network or premise device integration with a premise network 250 , under an alternative embodiment.
  • the network or premise devices 255 , 256 , 1057 are coupled to the touchscreen 1002 , and the touchscreen 1002 is coupled or connected between the premise router/firewall 252 and the broadband modem 251 .
  • the broadband modem 251 is coupled to a WAN 200 or other network outside the premise, while the premise router/firewall 252 is coupled to a premise LAN 250 .
  • the touchscreen 1002 can be configured or function as the premise router routing specified data between the outside network (e.g., WAN 200 ) and the premise router/firewall 252 of the LAN 250 .
  • the touchscreen 1002 in this configuration enables or forms a separate wireless network, or sub-network, that includes the network or premise devices 255 , 156 , 1057 and is coupled or connected between the LAN 250 of the host premises and the WAN 200 .
  • the touchscreen sub-network can include, but is not limited to, any number of network or premise devices 255 , 256 , 1057 like WiFi IP cameras, security panels (e.g., IP-enabled), and security touchscreens, to name a few.
  • the touchscreen 1002 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250 /WAN 200 , but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the touchscreen 1002 .
  • the gateway of an embodiment whether a stand-along component or integrated with a touchscreen, enables couplings or connections and thus the flow or integration of information between various components of the host premises and various types and/or combinations of IP devices, where the components of the host premises include a network (e.g., LAN) and/or a security system or subsystem to name a few. Consequently, the gateway controls the association between and the flow of information or data between the components of the host premises.
  • the gateway of an embodiment forms a sub-network coupled to another network (e.g., WAN, LAN, etc.), with the sub-network including IP devices.
  • the gateway further enables the association of the IP devices of the sub-network with appropriate systems on the premises (e.g., security system, etc.). Therefore, for example, the gateway can form a sub-network of IP devices configured for security functions, and associate the sub-network only with the premises security system, thereby segregating the IP devices dedicated to security from other IP devices that may be coupled to another network on the premises.
  • appropriate systems on the premises e.g., security system, etc.
  • the gateway of an embodiment enables couplings or connections and thus the flow of information between various components of the host premises and various types and/or combinations of IP devices, where the components of the host premises include a network, a security system or subsystem to name a few. Consequently, the gateway controls the association between and the flow of information or data between the components of the host premises.
  • the gateway of an embodiment forms a sub-network coupled to another network (e.g., WAN, LAN, etc.), with the sub-network including IP devices.
  • the gateway further enables the association of the IP devices of the sub-network with appropriate systems on the premises (e.g., security system, etc.). Therefore, for example, the gateway can form a sub-network of IP devices configured for security functions, and associate the sub-network only with the premises security system, thereby segregating the IP devices dedicated to security from other IP devices that may be coupled to another network on the premises.
  • FIG. 13 is a flow diagram for a method 1100 of forming a security network including integrated security system components, under an embodiment.
  • the method comprises coupling 1102 a gateway comprising a connection management component to a local area network in a first location and a security server in a second location.
  • the method comprises forming 1104 a security network by automatically establishing a wireless coupling between the gateway and a security system using the connection management component.
  • the security system of an embodiment comprises security system components located at the first location.
  • the method comprises integrating 1106 communications and functions of the security system components into the security network via the wireless coupling.
  • FIG. 14 is a flow diagram for a method 1200 of forming a security network including integrated security system components and network devices, under an embodiment.
  • the method comprises coupling 1202 a gateway to a local area network located in a first location and a security server in a second location.
  • the method comprises automatically establishing 1204 communications between the gateway and security system components at the first location, the security system including the security system components.
  • the method comprises automatically establishing 1206 communications between the gateway and premise devices at the first location.
  • the method comprises forming 1208 a security network by electronically integrating, via the gateway, communications and functions of the premise devices and the security system components.
  • FIG. 15 is a flow diagram 1300 for integration or installation of an IP device into a private network environment, under an embodiment.
  • the IP device includes any IP-capable device which, for example, includes the touchscreen of an embodiment.
  • the variables of an embodiment set at time of installation include, but are not limited to, one or more of a private SSID/Password, a gateway identifier, a security panel identifier, a user account TS, and a Central Monitoring Station account identification.
  • An embodiment of the IP device discovery and management begins with a user or installer activating 1302 the gateway and initiating 1304 the install mode of the system. This places the gateway in an install mode. Once in install mode, the gateway shifts to a default (Install) Wifi configuration. This setting will match the default setting for other integrated security system-enabled devices that have been pre-configured to work with the integrated security system. The gateway will then begin to provide 1306 DHCP addresses for these IP devices. Once the devices have acquired a new DHCP address from the gateway, those devices are available for configuration into a new secured Wifi network setting.
  • the user or installer of the system selects 1308 all devices that have been identified as available for inclusion into the integrated security system.
  • the user may select these devices by their unique IDs via a web page, Touchscreen, or other client interface.
  • the gateway provides 1310 data as appropriate to the devices. Once selected, the devices are configured 1312 with appropriate secured Wifi settings, including SSID and WPA/WPA-2 keys that are used once the gateway switches back to the secured sandbox configuration from the “Install” settings. Other settings are also configured as appropriate for that type of device. Once all devices have been configured, the user is notified and the user can exit install mode. At this point all devices will have been registered 1314 with the integrated security system servers.
  • the installer switches 1316 the gateway to an operational mode, and the gateway instructs or directs 1318 all newly configured devices to switch to the “secured” Wifi sandbox settings.
  • the gateway then switches 1320 to the “secured” Wifi settings.
  • the gateway can create or generate a dynamic network security configuration based on the unique ID and private key in the gateway, coupled with a randomizing factor that can be based on online time or other inputs. This guarantees the uniqueness of the gateway secured network configuration.
  • the gateway analyzes the RF spectrum of the 802.11x network and determines which frequency band/channel it should select to run.
  • An alternative embodiment of the camera/IP device management process leverages the local ethernet connection of the sandbox network on the gateway. This alternative process is similar to the Wifi discovery embodiment described above, except the user connects the targeted device to the ethernet port of the sandbox network to begin the process. This alternative embodiment accommodates devices that have not been pre-configured with the default “Install” configuration for the integrated security system.
  • This alternative embodiment of the IP device discovery and management begins with the user/installer placing the system into install mode.
  • the user is instructed to attach an IP device to be installed to the sandbox Ethernet port of the gateway.
  • the IP device requests a DHCP address from the gateway which, in response to the request, provides the address.
  • the user is presented the device and is asked if he/she wants to install the device. If yes, the system configures the device with the secured Wifi settings and other device-specific settings (e.g., camera settings for video length, image quality etc.).
  • the user is next instructed to disconnect the device from the ethernet port.
  • the device is now available for use on the secured sandbox network.
  • FIG. 16 is a block diagram showing communications among integrated IP devices of the private network environment, under an embodiment.
  • the IP devices of this example include a security touchscreen 1403 , gateway 1402 (e.g., “iHub”), and security panel (e.g., “Security Panel 1”, “Security Panel 2”, “Security Panel n”), but the embodiment is not so limited. In alternative embodiments any number and/or combination of these three primary component types may be combined with other components including IP devices and/or security system components.
  • a single device which comprises an integrated gateway, touchscreen, and security panel is merely another embodiment of the integrated security system described herein.
  • the description that follows includes an example configuration that includes a touchscreen hosting particular applications. However, the embodiment is not limited to the touchscreen hosting these applications, and the touchscreen should be thought of as representing any IP device.
  • the touchscreen 1403 incorporates an application 1410 that is implemented as computer code resident on the touchscreen operating system, or as a web-based application running in a browser, or as another type of scripted application (e.g., Flash, Java, Visual Basic, etc.).
  • the touchscreen core application 1410 represents this application, providing user interface and logic for the end user to manage their security system or to gain access to networked information or content (Widgets).
  • the touchscreen core application 1410 accesses a library or libraries of functions to control the local hardware (e.g. screen display, sound, LEDs, memory, etc.) as well as specialized librarie(s) to couple or connect to the security system.
  • the touchscreen 1403 communicates to the gateway 1402 , and has no direct communication with the security panel.
  • the touchscreen core application 1410 accesses the remote service APIs 1412 which provide security system functionality (e.g. ARM/DISARM panel, sensor state, get/set panel configuration parameters, initiate or get alarm events, etc.).
  • security system functionality e.g. ARM/DISARM panel, sensor state, get/set panel configuration parameters, initiate or get alarm events, etc.
  • Functions of the remote service APIs 1412 of an embodiment use a remote PanelConnect API 1424 which resides in memory on the gateway 1402 .
  • the touchscreen 1403 communicates with the gateway 1402 through a suitable network interface such as an Ethernet or 802.11 RF connection, for example.
  • the remote PanelConnect API 1424 provides the underlying Security System Interfaces 1426 used to communicate with and control one or more types of security panel via wired link 1430 and/or RF link 3.
  • the PanelConnect API 1224 provides responses and input to the remote services APIs 1426 , and in turn translates function calls and data to and from the specific protocols and functions supported by a specific implementation of a Security Panel (e.g. a GE Security Simon XT or Honeywell Vista 20 P).
  • a Security Panel e.g. a GE Security Simon XT or Honeywell Vista 20 P.
  • the PanelConnect API 1224 uses a 345 MHz RF transceiver or receiver hardware/firmware module to communicate wirelessly to the security panel and directly to a set of 345 MHz RF-enabled sensors and devices, but the embodiment is not so limited.
  • the gateway of an alternative embodiment communicates over a wired physical coupling or connection to the security panel using the panel's specific wired hardware (bus) interface and the panel's bus-level protocol.
  • the Touchscreen 1403 implements the same PanelConnect API 1414 locally on the Touchscreen 1403 , communicating directly with the Security Panel 2 and/or Sensors 2 over the proprietary RF link or over a wired link for that system.
  • the Touchscreen 1403 instead of the gateway 1402 , incorporates the 345 MHz RF transceiver to communicate directly with Security Panel 2 or Sensors 2 over the RF link 2.
  • the Touchscreen 1403 incorporates the real-time hardware (e.g. a PIC chip and RS232-variant serial link) to physically connect to and satisfy the specific bus-level timing requirements of the SecurityPanel2.
  • either the gateway 1402 or the Touchscreen 1403 implements the remote service APIs.
  • This embodiment includes a SPIM device, as described in detail herein, which comprises but is not limited to a processor (suitable for handling 802.11 protocols and processing, as well as the bus timing requirements of SecurityPanel1), an 802.11 (WiFi) client IP interface chip, and a serial bus interface chip that implements variants of RS232 or RS485, depending on the specific Security Panel.
  • the SPIM also implements the full PanelConnect APIs such that it can perform the same functions as the case where the gateway implements the PanelConnect APIs.
  • the touchscreen core application 1410 calls functions in the remote service APIs 1412 (such as setArmState( )). These functions in turn couple or connect to the remote SPIM through a standard IP connection (“SPIM IP Link”) (e.g., Ethernet, Homeplug, the gateway's proprietary Wifi network, etc.).
  • SPIM IP Link e.g., Ethernet, Homeplug, the gateway's proprietary Wifi network, etc.
  • the SPIM in turn implements the PanelConnect API, which responds to the request from the touchscreen core application, and performs the appropriate function using the proprietary panel interface. This interface uses either the wireless or wired proprietary protocol for the specific security panel and/or sensors.
  • FIG. 17 is a flow diagram of a method of integrating an external control and management application system with an existing security system, under an embodiment.
  • Operations begin when the system is powered on 1510 , involving at a minimum the power-on of the gateway device, and optionally the power-on of the connection between the gateway device and the remote servers.
  • the gateway device initiates 1520 a software and RF sequence to locate the extant security system.
  • the gateway and installer initiate and complete 1530 a sequence to ‘learn’ the gateway into the security system as a valid and authorized control device.
  • the gateway initiates 1540 another software and RF sequence of instructions to discover and learn the existence and capabilities of existing RF devices within the extant security system, and store this information in the system.
  • the system of an embodiment operates utilizing the proprietary wireless protocols of the security system manufacturer.
  • the gateway is an embedded computer with an IP LAN and WAN connection and a plurality of RF transceivers and software protocol modules capable of communicating with a plurality of security systems each with a potentially different RF and software protocol interface.
  • the gateway After the gateway has completed the discovery and learning 1540 of sensors and has been integrated 1550 as a virtual control device in the extant security system, the system becomes operational.
  • the security system and associated sensors are presented 1550 as accessible devices to a potential plurality of user interface subsystems.
  • the system of an embodiment integrates 1560 the functionality of the extant security system with other non-security devices including but not limited to IP cameras, touchscreens, lighting controls, door locking mechanisms, which may be controlled via RF, wired, or powerline-based networking mechanisms supported by the gateway or servers.
  • the system of an embodiment provides a user interface subsystem 1570 enabling a user to monitor, manage, and control the system and associated sensors and security systems.
  • a user interface subsystem is an HTML/XML/Javascript/Java/AJAX/Flash presentation of a monitoring and control application, enabling users to view the state of all sensors and controllers in the extant security system from a web browser or equivalent operating on a computer, PDA, mobile phone, or other consumer device.
  • a user interface subsystem is an HTML/XML/Javascript/Java/AJAX presentation of a monitoring and control application, enabling users to combine the monitoring and control of the extant security system and sensors with the monitoring and control of non-security devices including but not limited to IP cameras, touchscreens, lighting controls, door locking mechanisms.
  • a user interface subsystem is a mobile phone application enabling users to monitor and control the extant security system as well as other non-security devices.
  • a user interface subsystem is an application running on a keypad or touchscreen device enabling users to monitor and control the extant security system as well as other non-security devices.
  • a user interface subsystem is an application operating on a TV or set-top box connected to a TV enabling users to monitor and control the extant security system as well as other non-security devices.
  • FIG. 18 is a block diagram of an integrated security system 1600 wirelessly interfacing to proprietary security systems, under an embodiment.
  • a security system 1610 is coupled or connected to a Gateway 1620 , and from Gateway 1620 coupled or connected to a plurality of information and content sources across a network 1630 including one or more web servers 1640 , system databases 1650 , and applications servers 1660 .
  • network 1630 is the Internet, including the World Wide Web, those of skill in the art will appreciate that network 1630 may be any type of network, such as an intranet, an extranet, a virtual private network (VPN), a mobile network, or a non-TCP/IP based network.
  • VPN virtual private network
  • security system 1610 could be any type home or business security system, such devices including but not limited to a standalone RF home security system or a non-RF-capable wired home security system with an add-on RF interface module.
  • security system 1610 includes an RF-capable wireless security panel (WSP) 1611 that acts as the master controller for security system 1610 .
  • WSP RF-capable wireless security panel
  • WSP RF-capable wireless security panel
  • a wireless module 1614 includes the RF hardware and protocol software necessary to enable communication with and control of a plurality of wireless devices 1613 .
  • WSP 1611 may also manage wired devices 1614 physically connected to WSP 1611 with an RS232 or RS485 or Ethernet connection or similar such wired interface.
  • Gateway 1620 provides the interface between security system 1610 and LAN and/or WAN for purposes of remote control, monitoring, and management.
  • Gateway 1620 communicates with an external web server 1640 , database 1650 , and application server 1660 over network 1630 (which may comprise WAN, LAN, or a combination thereof).
  • application logic, remote user interface functionality, as well as user state and account are managed by the combination of these remote servers.
  • Gateway 1620 includes server connection manager 1621 , a software interface module responsible for all server communication over network 1630 .
  • Event manager 1622 implements the main event loop for Gateway 1620 , processing events received from device manager 1624 (communicating with non-security system devices including but not limited to IP cameras, wireless thermostats, or remote door locks). Event manager 1622 further processes events and control messages from and to security system 1610 by utilizing WSP manager 1623 .
  • WSP manager 1623 and device manager 1624 both rely upon wireless protocol manager 1626 which receives and stores the proprietary or standards-based protocols required to support security system 1610 as well as any other devices interfacing with gateway 1620 .
  • WSP manager 1623 further utilizes the comprehensive protocols and interface algorithms for a plurality of security systems 1610 stored in the WSP DB client database associated with wireless protocol manager 1626 . These various components implement the software logic and protocols necessary to communicate with and manager devices and security systems 1610 .
  • Wireless Transceiver hardware modules 1625 are then used to implement the physical RF communications link to such devices and security systems 1610 .
  • An illustrative wireless transceiver 1625 is the GE Security Dialog circuit board, implementing a 319.5 MHz two-way RF transceiver module.
  • RF Link 1670 represents the 319.5 MHz RF communication link, enabling gateway 1620 to monitor and control WSP 1611 and associated wireless and wired devices 1613 and 1614 , respectively.
  • server connection manager 1621 requests and receives a set of wireless protocols for a specific security system 1610 (an illustrative example being that of the GE Security Concord panel and sensors) and stores them in the WSP DB portion of the wireless protocol manager 1626 .
  • WSP manager 1623 then utilizes such protocols from wireless protocol manager 1626 to initiate the sequence of processes detailed in FIG. 17 and FIG. 18 for learning gateway 1620 into security system 1610 as an authorized control device.
  • event manager 1622 processes all events and messages detected by the combination of WSP manager 1623 and the GE Security wireless transceiver module 1625 .
  • gateway 1620 incorporates a plurality of wireless transceivers 1625 and associated protocols managed by wireless protocol manager 1626 .
  • events and control of multiple heterogeneous devices may be coordinated with WSP 1611 , wireless devices 1613 , and wired devices 1614 .
  • a wireless sensor from one manufacturer may be utilized to control a device using a different protocol from a different manufacturer.
  • gateway 1620 incorporates a wired interface to security system 1610 , and incorporates a plurality of wireless transceivers 1625 and associated protocols managed by wireless protocol manager 1626 .
  • events and control of multiple heterogeneous devices may be coordinated with WSP 1611 , wireless devices 1613 , and wired devices 1614 .
  • FIG. 19 is a flow diagram for wirelessly ‘learning’ the Gateway into an existing security system and discovering extant sensors, under an embodiment.
  • the learning interfaces gateway 1620 with security system 1610 .
  • Gateway 1620 powers up 1710 and initiates software sequences 1720 and 1725 to identify accessible WSPs 1611 and wireless devices 1613 , respectively (e.g., one or more WSPs and/or devices within range of gateway 1620 ).
  • WSP 1611 is manually or automatically set into ‘learn mode’ 1730
  • gateway 1620 utilizes available protocols to add 1740 itself as an authorized control device in security system 1610 .
  • WSP 1611 is manually or automatically removed from ‘learn mode’ 1750 .
  • Gateway 1620 utilizes the appropriate protocols to mimic 1760 the first identified device 1614 .
  • gateway 1620 identifies itself using the unique or pseudo-unique identifier of the first found device 1614 , and sends an appropriate change of state message over RF Link 1670 .
  • WSP 1611 responds to this change of state message
  • the device 1614 is then added 1770 to the system in database 1650 .
  • Gateway 1620 associates 1780 any other information (such as zone name or token-based identifier) with this device 1614 in database 1650 , enabling gateway 1620 , user interface modules, or any application to retrieve this associated information.
  • the device 1614 is not added 1770 to the system in database 1650 , and this device 1614 is identified as not being a part of security system 1610 with a flag, and is either ignored or added as an independent device, at the discretion of the system provisioning rules. Operations hereunder repeat 1785 operations 1760 , 1770 , 1780 for all devices 1614 if applicable. Once all devices 1614 have been tested in this way, the system begins operation 1790 .
  • gateway 1620 utilizes a wired connection to WSP 1611 , but also incorporates a wireless transceiver 1625 to communicate directly with devices 1614 .
  • operations under 1720 above are removed, and operations under 1740 above are modified so the system of this embodiment utilizes wireline protocols to add itself as an authorized control device in security system 1610 .
  • FIG. 18 , element 1620 is the iHub available from iControl Networks, Palo Alto, Calif., and described in detail herein.
  • the gateway is “automatically” installed with a security system.
  • the automatic security system installation begins with the assignment of an authorization key to components of the security system (e.g., gateway, kit including the gateway, etc.).
  • the assignment of an authorization key is done in lieu of creating a user account.
  • An installer later places the gateway in a user's premises along with the premises security system.
  • the installer uses a computer to navigate to a web portal (e.g., integrated security system web interface), logs in to the portal, and enters the authorization key of the installed gateway into the web portal for authentication.
  • a web portal e.g., integrated security system web interface
  • the gateway automatically discovers devices at the premises (e.g., sensors, cameras, light controls, etc.) and adds the discovered devices to the system or “network”.
  • the installer assigns names to the devices, and tests operation of the devices back to the server (e.g., did the door open, did the camera take a picture, etc.).
  • the security device information is optionally pushed or otherwise propagated to a security panel and/or to the server network database.
  • the installer finishes the installation, and instructs the end user on how to create an account, username, and password.
  • the user enters the authorization key which validates the account creation (uses a valid authorization key to associate the network with the user's account).
  • New devices may subsequently be added to the security network in a variety of ways (e.g., user first enters a unique ID for each device/sensor and names it in the server, after which the gateway can automatically discover and configure the device).
  • FIG. 18 , element 1610 is a Dialog system and the WSP ( FIG. 18 , element 1611 ) is a SimonXT available from General Electric Security, and the Gateway ( FIG. 18 , element 1620 ) is the iHub available from iControl Networks, Palo Alto, Calif., and described in detail herein. Descriptions of the install process for the SimonXT and iHub are also provided below.
  • GE Security's Dialog network is one of the most widely deployed and tested wireless security systems in the world.
  • the physical RF network is based on a 319.5 MHz unlicensed spectrum, with a bandwidth supporting up to 19 Kbps communications. Typical use of this bandwidth—even in conjunction with the integrated security system—is far less than that.
  • Devices on this network can support either one-way communication (either a transmitter or a receiver) or two-way communication (a transceiver).
  • Certain GE Simon, Simon XT, and Concord security control panels incorporate a two-way transceiver as a standard component.
  • the gateway also incorporates the same two-way transceiver card.
  • the physical link layer of the network is managed by the transceiver module hardware and firmware, while the coded payload bitstreams are made available to the application layer for processing.
  • Sensors in the Dialog network typically use a 60-bit protocol for communicating with the security panel transceiver, while security system keypads and the gateway use the encrypted 80-bit protocol.
  • the Dialog network is configured for reliability, as well as low-power usage. Many devices are supervised, i.e. they are regularly monitored by the system ‘master’ (typically a GE security panel), while still maintaining excellent power usage characteristics.
  • a typical door window sensor has a battery life in excess of 5-7 years.
  • the gateway has two modes of operation in the Dialog network: a first mode of operation is when the gateway is configured or operates as a ‘slave’ to the GE security panel; a second mode of operation is when the gateway is configured or operates as a ‘master’ to the system in the event a security panel is not present.
  • a first mode of operation is when the gateway is configured or operates as a ‘slave’ to the GE security panel; a second mode of operation is when the gateway is configured or operates as a ‘master’ to the system in the event a security panel is not present.
  • the gateway has the ability to ‘listen’ to network traffic, enabling the gateway to continually keep track of the status of all devices in the system.
  • the gateway can address and control devices that support setting adjustments (such as the GE wireless thermostat).
  • the gateway In the configuration in which the gateway acts as a ‘slave’ to the security panel, the gateway is ‘learned into’ the system as a GE wireless keypad. In this mode of operation, the gateway emulates a security system keypad when managing the security panel, and can query the security panel for status and ‘listen’ to security panel events (such as alarm events).
  • the gateway incorporates an RF Transceiver manufactured by GE Security, but is not so limited.
  • This transceiver implements the Dialog protocols and handles all network message transmissions, receptions, and timing. As such, the physical, link, and protocol layers of the communications between the gateway and any GE device in the Dialog network are totally compliant with GE Security specifications.
  • the gateway emulates the behavior of a GE wireless keypad utilizing the GE Security 80-bit encrypted protocol, and only supported protocols and network traffic are generated by the gateway.
  • Extensions to the Dialog RF protocol of an embodiment enable full control and configuration of the panel, and iControl can both automate installation and sensor enrollment as well as direct configuration downloads for the panel under these protocol extensions.
  • the gateway participates in the GE Security network at the customer premises. Because the gateway has intelligence and a two-way transceiver, it can ‘hear’ all of the traffic on that network.
  • the gateway makes use of the periodic sensor updates, state changes, and supervisory signals of the network to maintain a current state of the premises. This data is relayed to the integrated security system server (e.g., FIG. 4 , element 260 ) and stored in the event repository for use by other server components.
  • This usage of the GE Security RF network is completely non-invasive; there is no new data traffic created to support this activity.
  • the gateway can directly (or indirectly through the Simon XT panel) control two-way devices on the network.
  • the gateway can direct a GE Security Thermostat to change its setting to ‘Cool’ from ‘Off’, as well as request an update on the current temperature of the room.
  • the gateway performs these functions using the existing GE Dialog protocols, with little to no impact on the network; a gateway device control or data request takes only a few dozen bytes of data in a network that can support 19 Kbps.
  • the gateway By enrolling with the Simon XT as a wireless keypad, as described herein, the gateway includes data or information of all alarm events, as well as state changes relevant to the security panel. This information is transferred to the gateway as encrypted packets in the same way that the information is transferred to all other wireless keypads on the network.
  • the gateway can also initiate the same panel commands that a keypad can initiate. For example, the gateway can arm or disarm the panel using the standard Dialog protocol for this activity.
  • the gateway can arm or disarm the panel using the standard Dialog protocol for this activity.
  • the only incremental data traffic on the network as a result of the gateway is the infrequent remote arm/disarm events that the gateway initiates, or infrequent queries on the state of the panel.
  • the gateway is enrolled into the Simon XT panel as a ‘slave’ device which, in an embodiment, is a wireless keypad. This enables the gateway for all necessary functionality for operating the Simon XT system remotely, as well as combining the actions and information of non-security devices such as lighting or door locks with GE Security devices.
  • the only resource taken up by the gateway in this scenario is one wireless zone (sensor ID).
  • the gateway of an embodiment supports three forms of sensor and panel enrollment/installation into the integrated security system, but is not limited to this number of enrollment/installation options.
  • the enrollment/installation options of an embodiment include installer installation, kitting, and panel, each of which is described below.
  • the installer enters the sensor IDs at time of installation into the integrated security system web portal or iScreen. This technique is supported in all configurations and installations.
  • Kits can be pre-provisioned using integrated security system provisioning applications when using the kitting option. At kitting time, multiple sensors are automatically associated with an account, and at install time there is no additional work required.
  • the gateway has the capability to automatically extract the sensor information from the system and incorporate it into the user account on the integrated security system server.
  • the gateway and integrated security system of an embodiment uses an auto-learn process for sensor and panel enrollment in an embodiment.
  • the deployment approach of an embodiment can use additional interfaces that GE Security is adding to the Simon XT panel. With these interfaces, the gateway has the capability to remotely enroll sensors in the panel automatically.
  • the interfaces include, but are not limited to, the following: EnrollDevice(ID, type, name, zone, group); SetDeviceParameters(ID, type, Name, zone, group), GetDeviceParameters(zone); and RemoveDevice(zone).
  • the integrated security system incorporates these new interfaces into the system, providing the following install process.
  • the install process can include integrated security system logistics to handle kitting and pre-provisioning.
  • Pre-kitting and logistics can include a pre-provisioning kitting tool provided by integrated security system that enables a security system vendor or provider (“provider”) to offer pre-packaged initial ‘kits’. This is not required but is recommended for simplifying the install process.
  • a ‘Basic’ kit is preassembled and includes one (1) Simon XT, three (3) Door/window sensors, one (1) motion sensor, one (1) gateway, one (1) keyfob, two (2) cameras, and ethernet cables.
  • the kit also includes a sticker page with all Zones (1-24) and Names (full name list).
  • the provider uses the integrated security system kitting tool to assemble ‘Basic’ kit packages.
  • the contents of different types of starter kits may be defined by the provider.
  • a worker uses a bar code scanner to scan each sensor and the gateway as it is packed into the box.
  • An ID label is created that is attached to the box.
  • the scanning process automatically associates all the devices with one kit, and the new ID label is the unique identifier of the kit.
  • These boxes are then sent to the provider for distribution to installer warehouses. Individual sensors, cameras, etc. are also sent to the provider installer warehouse. Each is labeled with its own barcode/ID.
  • An installation and enrollment procedure of a security system including a gateway is described below as one example of the installation process.
  • An installation and enrollment procedure of a security system including a gateway is described below as an alternative example of the installation process.
  • This installation process is for use for enrolling sensors into the SimonXT and integrated security system and is compatible with all existing GE Simon panels.
  • the integrated security system supports all pre-kitting functionality described in the installation process above. However, for the purpose of the following example, no kitting is used.
  • the panel of an embodiment can be programmed remotely.
  • the CMS pushes new programming to SimonXT over a telephone or GPRS link.
  • iControl and GE provide a broadband link or coupling to the gateway and then a link from the gateway to the Simon XT over GE RF.
  • the gateway of an embodiment supports takeover configurations in which it is introduced or added into a legacy security system.
  • a description of example takeover configurations follow in which the security system ( FIG. 4 , element 210 ) is a Dialog system and the WSP ( FIG. 4 , element 211 ) is a GE Concord panel (e.g., equipped with POTS, GE RF, and Superbus 2000 RS485 interface (in the case of a Lynx takeover the Simon XT is used) available from General Electric Security.
  • the gateway ( FIG. 4 , element 210 ) is a Dialog system and the WSP ( FIG. 4 , element 211 ) is a GE Concord panel (e.g., equipped with POTS, GE RF, and Superbus 2000 RS485 interface (in the case of a Lynx takeover the Simon XT is used) available from General Electric Security.
  • the gateway FIG.
  • element 220 in the takeover configurations is an iHub (e.g., equipped with built-in 802.11b/g router, Ethernet Hub, GSM/GPRS card, RS485 interface, and iControl Honeywell-compatible RF card) available from iControl Networks, Palo Alto, Calif. While components of particular manufacturers are used in this example, the embodiments are not limited to these components or to components from these vendors.
  • iHub e.g., equipped with built-in 802.11b/g router, Ethernet Hub, GSM/GPRS card, RS485 interface, and iControl Honeywell-compatible RF card
  • the security system can optionally include RF wireless sensors (e.g., GE wireless sensors utilizing the GE Dialog RF technology), IP cameras, a GE-iControl Touchscreen (the touchscreen is assumed to be an optional component in the configurations described herein, and is thus treated separately from the iHub; in systems in which the touchscreen is a component of the base security package, the integrated iScreen (available from iControl Networks, Palo Alto, Calif.) can be used to combine iHub technology with the touchscreen in a single unit), and Z-Wave devices to name a few.
  • RF wireless sensors e.g., GE wireless sensors utilizing the GE Dialog RF technology
  • IP cameras e.g., IP cameras
  • a GE-iControl Touchscreen the touchscreen is assumed to be an optional component in the configurations described herein, and is thus treated separately from the iHub; in systems in which the touchscreen is a component of the base security package, the integrated iScreen (available from iControl Networks,
  • the takeover configurations described below assume takeover by a “new” system of an embodiment of a security system provided by another third party vendor, referred to herein as an “original” or “legacy” system.
  • the takeover begins with removal of the control panel and keypad of the legacy system.
  • a GE Concord panel is installed to replace the control panel of the legacy system along with an iHub with GPRS Modem.
  • the legacy system sensors are then connected or wired to the Concord panel, and a GE keypad or touchscreen is installed to replace the control panel of the legacy system.
  • the iHub includes the iControl RF card, which is compatible with the legacy system.
  • the iHub finds and manages the wireless sensors of the legacy system, and learns the sensors into the Concord by emulating the corresponding GE sensors.
  • the iHub effectively acts as a relay for legacy wireless sensors.
  • the new security system provides a homogeneous system that removes the compromises inherent in taking over or replacing a legacy system.
  • the new system provides a modern touchscreen that may include additional functionality, new services, and supports integration of sensors from various manufacturers.
  • lower support costs can be realized because call centers, installers, etc. are only required to support one architecture.
  • there is minimal install cost because only the panel is required to be replaced as a result of the configuration flexibility offered by the iHub.
  • the system takeover configurations described below include but are not limited to a dedicated wireless configuration, a dedicated wireless configuration that includes a touchscreen, and a fished Ethernet configuration. Each of these configurations is described in detail below.
  • FIG. 20 is a block diagram of a security system in which the legacy panel is replaced with a GE Concord panel wirelessly coupled to an iHub, under an embodiment. All existing wired and RF sensors remain in place.
  • the iHub is located near the Concord panel, and communicates with the panel via the 802.11 link, but is not so limited.
  • the iHub manages cameras through a built-in 802.11 router.
  • the iHub listens to the existing RF HW sensors, and relays sensor information to the Concord panel (emulating the equivalent GE sensor).
  • the wired sensors of the legacy system are connected to the wired zones on the control panel.
  • FIG. 21 is a block diagram of a security system in which the legacy panel is replaced with a GE Concord panel wirelessly coupled to an iHub, and a GE-iControl Touchscreen, under an embodiment. All existing wired and RF sensors remain in place.
  • the iHub is located near the Concord panel, and communicates with the panel via the 802.11 link, but is not so limited.
  • the iHub manages cameras through a built-in 802.11 router.
  • the iHub listens to the existing RF HW sensors, and relays sensor information to the Concord panel (emulating the equivalent GE sensor).
  • the wired sensors of the legacy system are connected to the wired zones on the control panel.
  • the GE-iControl Touchscreen can be used with either of an 802.11 connection or Ethernet connection with the iHub. Because the takeover involves a GE Concord panel (or Simon XT), the touchscreen is always an option. No extra wiring is required for the touchscreen as it can use the 4-wire set from the replaced keypad of the legacy system. This provides power, battery backup (through Concord), and data link (RS485 Superbus 2000) between Concord and touchscreen. The touchscreen receives its broadband connectivity through the dedicated 802.11 link to the iHub.
  • FIG. 22 is a block diagram of a security system in which the legacy panel is replaced with a GE Concord panel connected to an iHub via an Ethernet coupling, under an embodiment. All existing wired and RF sensors remain in place.
  • the iHub is located near the Concord panel, and wired to the panel using a 4-wire SUperbus 2000 (RS485) interface, but is not so limited.
  • the iHub manages cameras through a built-in 802.11 router.
  • the iHub listens to the existing RF HW sensors, and relays sensor information to the Concord panel (emulating the equivalent GE sensor).
  • the wired sensors of the legacy system are connected to the wired zones on the control panel.
  • the takeover installation process is similar to the installation process described above, except the control panel of the legacy system is replaced; therefore, only the differences with the installation described above are provided here.
  • the takeover approach of an embodiment uses the existing RS485 control interfaces that GE Security and iControl support with the iHub, touchscreen, and Concord panel. With these interfaces, the iHub is capable of automatically enrolling sensors in the panel. The exception is the leverage of an iControl RF card compatible with legacy systems to ‘takeover’ existing RF sensors. A description of the takeover installation process follows.
  • the iHub uses an RF Takeover Card to automatically extract all sensor IDs, zones, and names from the legacy panel.
  • the installer removes connections at the legacy panel from hardwired wired sensors and labels each with the zone.
  • the installer pulls the legacy panel and replaces it with the GE Concord panel.
  • the installer also pulls the existing legacy keypad and replaces it with either a GE keypad or a GE-iControl touchscreen.
  • the installer connects legacy hardwired sensors to appropriate wired zone (from labels) on the Concord.
  • the installer connects the iHub to the local network and connects the iHub RS485 interface to the Concord panel.
  • the iHub automatically ‘enrolls’ legacy RF sensors into the Concord panel as GE sensors (maps IDs), and pushes or otherwise propagates other information gathered from HW panel (zone, name, group).
  • the installer performs a test of all sensors back to CMS.
  • the iHub relays legacy sensor data to the Concord panel, emulating equivalent GE sensor behavior and protocols.
  • the areas of the installation process particular to the legacy takeover include how the iHub extracts sensor info from the legacy panel and how the iHub automatically enrolls legacy RF sensors and populates Concord with wired zone information. Each of these areas is described below.
  • the installer ‘enrolls’ iHub into the legacy panel as a wireless keypad (use install code and house ID available from panel).
  • the iHub legacy RF Takeover Card is a compatible legacy RF transceiver.
  • the installer uses the web portal to place iHub into ‘Takeover Mode’, and the web portal the automatically instructs the iHub to begin extraction.
  • the iHub queries the panel over the RF link (to get all zone information for all sensors, wired and RF).
  • the iHub then stores the legacy sensor information received during the queries on the iConnect server.
  • the iHub also automatically enrolls legacy RF sensors and populates Concord with wired zone information. In so doing, the installer selects ‘Enroll legacy Sensors into Concord’ (next step in ‘Takeover’ process on web portal).
  • the iHub automatically queries the iConnect server, and downloads legacy sensor information previously extracted.
  • the downloaded information includes an ID mapping from legacy ID to ‘spoofed’ GE ID. This mapping is stored on the server as part of the sensor information (e.g., the iConnect server knows that the sensor is a legacy sensor acting in GE mode).
  • the iHub instructs Concord to go into install mode, and sends appropriate Superbus 2000 commands for sensor learning to the panel.
  • the ‘spoofed’ GE ID is loaded, and zone, name, and group are set based on information extracted from legacy panel.
  • the iHub notifies the server, and the web portal is updated to reflect next phase of Takeover (e.g., ‘Test Sensors’).
  • CMS pushes new programming to Concord over a phone line, or to the iConnect CMS/Alarm Server API, which in turn pushes the programming to the iHub.
  • the iHub uses the Concord Superbus 2000 RS485 link to push the programming to the Concord panel.
  • FIG. 23 is a flow diagram for automatic takeover 2100 of a security system, under an embodiment.
  • Automatic takeover includes establishing 2102 a wireless coupling between a takeover component running under a processor and a first controller of a security system installed at a first location.
  • the security system includes some number of security system components coupled to the first controller.
  • the automatic takeover includes automatically extracting 2104 security data of the security system from the first controller via the takeover component.
  • the automatic takeover includes automatically transferring 2106 the security data to a second controller and controlling loading of the security data into the second controller.
  • the second controller is coupled to the security system components and replaces the first controller.
  • FIG. 24 is a flow diagram for automatic takeover 2200 of a security system, under an alternative embodiment.
  • Automatic takeover includes automatically forming 2202 a security network at a first location by establishing a wireless coupling between a security system and a gateway.
  • the gateway of an embodiment includes a takeover component.
  • the security system of an embodiment includes security system components.
  • the automatic takeover includes automatically extracting 2204 security data of the security system from a first controller of the security system.
  • the automatic takeover includes automatically transferring 2206 the security data to a second controller.
  • the second controller of an embodiment is coupled to the security system components and replaces the first controller.
  • Embodiments described herein include a method of interfacing to a security system, comprising local area wireless communication to the security system for the purpose of monitoring, controlling, and/or managing the security system, to name a few.
  • Embodiments described herein include a method of interfacing to a security system, comprising a wired interface to the security system in combination with one or more wireless interfaces to other sensors and/or devices for the purpose of monitoring, controlling, or managing the security system.
  • the system of an embodiment communicates with a plurality of security systems, where one or more of the security systems have different RF frequencies and/or communications protocols.
  • the system of an embodiment coordinates actions between a security system and other devices.
  • the system of an embodiment notifies users as to changes in sensor state or activity.
  • the system of an embodiment enables users to control the security system remotely.
  • the system of an embodiment determines which sensors are included in the security system.
  • the system of an embodiment determines descriptive characteristics of the sensors included in the security system.
  • Embodiments described herein include a method of interfacing to a security system, comprising a software application interface providing the ability to communicate with a security system using one or more of a plurality of security system protocols.
  • the software application of an embodiment interface enables an application to select one of a plurality of security system protocol interfaces.
  • the software application of an embodiment interface automatically detects available security systems, and uses the communication protocol appropriate to the security systems.
  • the software application of an embodiment interface simultaneously communicates with multiple security systems using multiple security system protocols.
  • the software application of an embodiment interface communicates directly with sensors or devices independently from the security system control panel.
  • the system of an embodiment coordinates actions and data between devices within the security system and other devices.
  • Embodiments described herein include a device comprising an interface module coupled to a processor.
  • the interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location.
  • the processing component uses a proprietary protocol for processing data of the legacy system.
  • the device comprises a protocol module coupled to the processor.
  • the protocol module comprises a protocol corresponding to the proprietary protocol.
  • the interface module uses the protocol to exchange data with the processing component.
  • the device comprises a communication device coupled to the processor.
  • the communication device communicates with a remote system via a wireless channel.
  • the processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
  • Embodiments described herein include a device comprising: an interface module coupled to a processor, wherein the interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location, wherein the processing component uses a proprietary protocol for processing data of the legacy system; a protocol module coupled to the processor, wherein the protocol module comprises a protocol corresponding to the proprietary protocol, wherein the interface module uses the protocol to exchange data with the processing component; and a communication device coupled to the processor, wherein the communication device communicates with a remote system via a wireless channel, wherein the processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
  • the communication device comprises a radio frequency (RF) device.
  • RF radio frequency
  • the communication device comprises a cellular communication device, wherein the cellular communication device communicates with cellular-enabled systems via a cellular network.
  • the cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, and a Long Term Evolution (LTE) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • the communication device comprises a broadband communication device.
  • the communication device comprises a WiFi communication device.
  • the communication device comprises a Z-Wave communication device.
  • the communication device comprises a Zigbee communication device.
  • the communication device comprises a plain old telephone service (POTS) device.
  • POTS plain old telephone service
  • the communication device comprises at least one of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • POTS plain old telephone service
  • the communication device comprises at least two of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • POTS plain old telephone service
  • the remote system comprises one or more of a server, network operations center, central monitoring station, network device, gateway, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
  • the legacy system is a control system installed at the location, wherein the control system comprises a plurality of controlled devices.
  • the plurality of controlled devices comprises one or more of thermostats, lights, locks, sensors, detectors, security devices, appliances, cameras, network devices, controllers, control panel processors, Internet Protocol (IP) devices, Z-Wave devices, and Zigbee devices.
  • IP Internet Protocol
  • the legacy system enrolls the interface module as a known device.
  • the event data comprises data of the controlled components.
  • the processing component comprises a serial bus of the control system, wherein the proprietary protocol is a serial protocol.
  • the plurality of controlled devices is coupled to the serial bus and registered with a controller of the control system.
  • the device of an embodiment comprises a wire-based coupling between the interface module and the serial bus.
  • the wire-based coupling comprises at least one of a TTL interface, an RS-232 interface, and an RS-422 interface.
  • the device of an embodiment comprises a wireless-based coupling between the interface module and the serial bus.
  • the device of an embodiment comprises a reporting interface module coupled to the processor, wherein the reporting interface module transmits a status report to the remote system via the communication device.
  • the reporting interface module receives the status report from the legacy system.
  • the reporting interface module receives the event data from the legacy system, wherein the event data comprises state data of the control system and the controlled devices.
  • the reporting interface module generates the status report from the event data and the state data.
  • the remote system comprises a network operations center.
  • the reporting interface module transmits the status report to the remote system via at least one intermediate system.
  • the interface module receives event data asynchronously transmitted by the legacy system and passes the event data to the remote system via the communication device.
  • the communication device receives polling requests from the remote system and passes the polling requests to the legacy system via the interface module.
  • the communication device conducts polling operations on behalf of the remote system.
  • the event data received from the legacy system in response to the polling operations is sent to the remote system.
  • the processor Upon receiving the event data the processor buffers the event data prior to sending the event data to the remote system.
  • the processor Upon receiving the event data the processor retransmits the event data to the remote system.
  • the protocol corresponding to the proprietary protocol comprises an abbreviated command set.
  • the protocol comprises a protocol translator that maps between a first set of commands of the legacy system and a second set of commands of the remote system.
  • the device of an embodiment comprises at least one proxy executed by the processor.
  • the at least one proxy comprises configuration parameters, wherein the configuration parameters include at least one of enable, disable, automatic-sense on, automatic-sense off, legacy system type, interface module type, polling type, polling level, polling commands, polling rate, and statistic period.
  • Configuration parameters of the at least one proxy are set via the remote system.
  • Configuration parameters of the at least one proxy are automatically determined and set by the at least one proxy using detected information of at least one of the legacy system and the remote system.
  • the at least one proxy includes a polling proxy, wherein the polling proxy is an intermediary between the remote system and the legacy system.
  • the polling proxy at least one of processes, parses, translates protocol, adjusts timing, buffers, and queues messages exchanged between the remote system and the legacy system.
  • the polling proxy comprises message polling.
  • the message polling comprises providing polling commands that prompt for messages exchanged between the interface module and the legacy system, wherein the messages include at least one of legacy system state changes, legacy system mode changes, legacy system resource changes, responses to remote system commands, message management.
  • the polling proxy comprises data polling.
  • the data polling comprises polling for data including at least one of internal state data and resource data of the legacy system,
  • the data polling comprises polling for data that indicates at least one of a change of state and a change of resources.
  • the polling proxy compares data received during data polling to data from at least one previous query, wherein the polling proxy infers from the comparison at least one of state changes and resource changes.
  • the at least one proxy includes an injection proxy running on the processor.
  • the injection proxy is a transparent pass-through for a first message exchanged between the remote system and the legacy system, wherein the first message is related to a non-polling function of the legacy system, wherein in response to the first message received from the remote system the injection proxy passes the first message to the legacy system, wherein in response to the first message received from the legacy system the injection proxy passes the first message to the remote system.
  • the injection proxy manages polling data of a second message exchanged between the remote system and the legacy system, wherein the second message is related to a polling function of the legacy system.
  • the injection proxy In response to the second message received from the remote system, the injection proxy generates a third message and sends the third message to the legacy system, wherein the third message is generated by injecting polling commands into the second message.
  • the injection proxy In response to the second message received from the legacy system, the injection proxy generates a fourth message and sends the fourth message to the remote system, wherein the fourth message is generated by removing polling information from the second message.
  • the at least one proxy includes a rewrite proxy, wherein the rewrite proxy rewrites sequence numbers of messages that pass between the remote system and the legacy system.
  • the rewrite proxy detects a sequence number of the second message is shared as the sequence number of the first message.
  • the rewrite proxy rewrites sequence numbers of the first message, wherein a first sequence count corresponding to the first message between the rewrite proxy and the remote system is continuous, wherein a second sequence count corresponding to the first message between the rewrite proxy and the legacy system is continuous.
  • the rewrite proxy rewrites sequence numbers of the second message, wherein a third sequence count corresponding to the second message between the rewrite proxy and the remote system is continuous, wherein a fourth sequence count corresponding to the second message between the rewrite proxy and the legacy system is continuous.
  • the device of an embodiment comprises a scheduling engine coupled to the processor, wherein the scheduling engine schedules automations and events of associated devices coupled to the communication device.
  • the processor controls communications by controlling at least one of protocol translation, communication translation, and timing constraints of communication events.
  • the commands from the remote system comprise Transmission Control Protocol (TCP), wherein transmissions to the remote system comprise User Datagram Protocol (UDP).
  • TCP Transmission Control Protocol
  • UDP User Datagram Protocol
  • the communication device comprises a WiFi communication device, wherein the remote system comprises a gateway at the location, wherein the gateway comprises a wireless access manager coupled to a gateway processor, wherein the wireless access manager establishes a communication channel with the communication device, wherein the communication channel passes communications that comprise commands to the legacy system from the remote system, and event data to the remote system from the legacy system.
  • the device of an embodiment comprises a second communication device that is a cellular communication device, wherein the cellular communication device establishes a second communication channel with at least one other remote system, wherein the second communication channel passes communications that comprise commands to the legacy system from the at least one other remote system, and event data to the at least one other remote system from the legacy system.
  • the communication device comprises operating credentials received via the gateway.
  • Configuration and status data of the communication device is provided via the gateway.
  • the at least one other remote system comprises one or more of a server, network operations, center, central monitoring station, network device, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
  • the communication device communicates with at least one of the remote system and the at least one other remote system, wherein the processor controls communications that comprise passing commands from at least one of the remote system and the at least one other remote system to the legacy system, and passing event data of the legacy system to at least one of the remote system and the at least one other remote system.
  • the gateway comprises a connection manager coupled to a gateway processor, wherein the connection manager is coupled to a plurality of remote servers via a network and communicates with the plurality of remote servers over the network.
  • the connection manager receives via the network a set of protocols corresponding to the legacy system.
  • the gateway comprises a protocol manager coupled to the gateway processor, wherein the protocol manager includes the set of protocols corresponding to the legacy system.
  • the set of protocols include the protocol, wherein the protocol module receives the protocol from the protocol manager.
  • the gateway comprises a device manager coupled to the gateway processor, wherein the device manager processes the commands and the event data exchanged between the remote system and the legacy system via the interface module.
  • the wireless access manager initiates learning of the gateway into the legacy system using the set of protocols.
  • the gateway includes at least one wireless device coupled to a gateway processor, wherein the protocol manager includes at least one wireless device protocol corresponding to the at least one wireless device, wherein the at least one wireless device provides at least one communication channel with at least one wireless device at the location.
  • the gateway locates and enrolls the interface module as a known device.
  • Embodiments described herein include a system comprising a gateway at a location.
  • the gateway is coupled to a remote system.
  • the system comprises an interface device at the location.
  • the interface device comprises a processor coupled to an interface module, a protocol module, and at least one communication device.
  • the interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location.
  • the processing component uses a proprietary protocol for processing data of the legacy system.
  • the protocol module comprises a protocol corresponding to the proprietary protocol.
  • the interface module uses the protocol to exchange data with the processing component.
  • the at least one communication device communicates with at least one of the gateway and the remote system via at least one wireless channel.
  • the processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
  • Embodiments described herein include a system comprising: a gateway at a location, wherein the gateway is coupled to a remote system; and an interface device at the location, the interface device comprising a processor coupled to an interface module, a protocol module, and at least one communication device; wherein the interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location, wherein the processing component uses a proprietary protocol for processing data of the legacy system, wherein the protocol module comprises a protocol corresponding to the proprietary protocol, wherein the interface module uses the protocol to exchange data with the processing component, wherein the at least one communication device communicates with at least one of the gateway and the remote system via at least one wireless channel, wherein the processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
  • the at least one communication device comprises a radio frequency (RF) device.
  • RF radio frequency
  • the at least one communication device comprises a cellular communication device, wherein the cellular communication device communicates with cellular-enabled systems via a cellular network, wherein the cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, and a Long Term Evolution (LTE) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • the at least one communication device comprises a broadband communication device.
  • the at least one communication device comprises a WiFi communication device.
  • the at least one communication device comprises a Z-Wave communication device.
  • the at least one communication device comprises a Zigbee communication device.
  • the at least one communication device comprises at least one of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • POTS plain old telephone service
  • the remote system comprises one or more of a server, network operations center, central monitoring station, network device, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
  • the processor controls communications by controlling at least one of protocol translation, communication translation, and timing constraints of communication events.
  • the at least one communication device comprises a WiFi communication device
  • the gateway comprises a wireless access manager coupled to a gateway processor, wherein the wireless access manager establishes a communication channel with the at least one communication device, wherein the communication channel passes communications that comprise commands to the legacy system from at least one of the gateway and the remote system, and event data to at least one of the gateway and the remote system from the legacy system.
  • the at least one communication device comprises a second communication device that is a cellular communication device, wherein the cellular communication device establishes a second communication channel with the remote system, wherein the second communication channel passes communications that comprise commands to the legacy system from the remote system, and event data to the remote system from the legacy system.
  • the at least one communication device comprises operating credentials received via the gateway.
  • Configuration and status data of the at least one communication device is provided via the gateway.
  • the at least one communication device communicates with at least one of the gateway and the remote system, wherein the processor controls communications that comprise passing commands from at least one of the gateway and the remote system to the legacy system, and passing event data of the legacy system to at least one of the gateway and the remote system.
  • the gateway comprises a connection manager coupled to a gateway processor, wherein the connection manager is coupled to the remote system via a network and communicates with the remote system over the network.
  • the connection manager receives via the network a set of protocols corresponding to the legacy system.
  • the gateway comprises a protocol manager coupled to the gateway processor, wherein the protocol manager includes the set of protocols corresponding to the legacy system.
  • the set of protocols include the protocol, wherein the protocol module receives the protocol from the protocol manager.
  • the gateway comprises a device manager coupled to the gateway processor, wherein the device manager processes the commands and the event data exchanged between the remote system and the legacy system via the interface module.
  • the wireless access manager initiates learning of the gateway into the legacy system using the set of protocols.
  • the gateway includes at least one wireless device coupled to a gateway processor, wherein the protocol manager includes at least one wireless device protocol corresponding to the at least one wireless device, wherein the at least one wireless device provides at least one communication channel with at least one wireless device at the location.
  • the gateway locates and enrolls the interface module as a known device.
  • the legacy system is a security system installed at the location, wherein the security system comprises a plurality of security system components.
  • the plurality of security system components comprise one or more of gateway devices, touchscreen devices, security panels, security panel processors, sensors, detectors, door contacts, window contacts, motion sensors, and glass-break detectors.
  • the legacy system enrolls the interface device as a known device.
  • the event data comprises at least one of data of the plurality of security system components, alarm condition data, and sensor data.
  • the processing component comprises a serial bus of a controller of the security system, wherein the proprietary protocol is a serial protocol.
  • the plurality of security system components is coupled to the serial bus and registered with the controller.
  • the system of an embodiment comprises a wire-based coupling between the interface module and the serial bus, wherein the wire-based coupling comprises at least one of a TTL interface, an RS-232 interface, and an RS-422 interface.
  • the system of an embodiment comprises a wireless-based coupling between the interface module and the serial bus.
  • the system of an embodiment comprises an alarm interface module coupled to the processor, wherein the alarm interface module transmits an alarm report to at least one of the gateway and the remote system.
  • the alarm interface module receives the alarm report from the legacy system.
  • the alarm interface module receives the event data from the legacy system, wherein the event data comprises security state data of the security system, wherein the alarm interface module generates the alarm report from the security state data.
  • the remote system comprises an alarm central monitoring station.
  • the alarm interface module transmits the alarm report to at least one of the gateway and the remote system via at least one intermediate system.
  • the interface module receives event data asynchronously transmitted by the legacy system and passes the event data to at least one of the gateway and the remote system via the at least one communication device.
  • the at least one communication device receives polling requests from at least one of the gateway and the remote system and passes the polling requests to the legacy system via the interface module.
  • the at least one communication device conducts polling operations on behalf of the remote system.
  • the event data received from the legacy system in response to the polling operations is sent to at least one of the gateway and the remote system.
  • the processor Upon receiving the event data the processor buffers the event data prior to sending the event data to at least one of the gateway and the remote system.
  • the processor Upon receiving the event data the processor retransmits the event data to at least one of the gateway and the remote system.
  • the protocol corresponding to the proprietary protocol comprises an abbreviated command set.
  • the protocol comprises a protocol translator that maps between a first set of commands of the legacy system and a second set of commands of the remote system.
  • the gateway forms a security network by automatically discovering via the interface device the security system components and integrating communications and functions of the security system components into the security network via the wireless coupling.
  • the gateway comprises a user interface coupled to the security network, wherein the user interface allows control of the functions of the security network by a user.
  • the user interface is a touchscreen device, wherein the touchscreen device includes the gateway.
  • the system of an embodiment comprises a portal coupled to the gateway, wherein the portal provides access to the communications and the functions of the security network via the remote system.
  • the system of an embodiment comprises an interface coupled to the security network, wherein the interface allows control of the functions of the security network from the remote system.
  • the gateway automatically discovers the security system components and establishes and controls the communications with the security system components.
  • the gateway includes a device connect component that includes definitions of the security system components.
  • the security system is coupled to a central monitoring station via a primary communication link, wherein the gateway is coupled to the central monitoring station via a secondary communication link that is different than the primary communication link.
  • the gateway transmits event data of the security system components to the central monitoring station over the secondary communication link.
  • the gateway transmits messages comprising event data of the security system components to the remote system over the secondary communication link.
  • the gateway receives control data for control of the security system components from the remote system via the secondary communication link.
  • the security network comprises network devices coupled to the gateway via a wireless coupling, wherein the network devices include at least one of an Internet Protocol (IP) device, a camera, a touchscreen, a device controller that controls an attached device, and a sensor.
  • IP Internet Protocol
  • the gateway automatically discovers the network devices and installs the network devices in the security network.
  • the gateway controls communications between the network devices, the security system components, and the remote system.
  • the gateway transmits event data of the network devices to the remote system over at least one communication link, wherein the event data comprises changes in device states of the network devices, data of the network devices, and data received by the network devices.
  • the gateway receives control data for control of the network devices from the remote system via the at least one communication link.
  • the remote system includes a security server at a remote location different from the location, wherein the security server is coupled to the gateway.
  • the security server creates, modifies and terminates couplings between the gateway and at least one of the security system components and the network devices.
  • the security server creates, modifies, deletes and configures at least one of the security system components and the network devices.
  • the security server creates automations, schedules and notification rules associated with at least one of the security system components and the network devices.
  • the security server manages communications with at least one of the security system components and the network devices.
  • the interface device comprises a scheduling engine coupled to the processor, wherein the scheduling engine schedules automations and events of at least one of the security system components and the network devices.
  • the system of an embodiment comprises at least one proxy executed by the processor of the interface device.
  • the at least one proxy includes a polling proxy, wherein the polling proxy is an intermediary between the remote system and the legacy system.
  • the polling proxy at least one of processes, parses, translates protocol, adjusts timing, buffers, and queues messages exchanged between the remote system and the legacy system.
  • the polling proxy comprises message polling, wherein the message polling comprises providing polling commands that prompt for messages exchanged between the interface module and the legacy system, wherein the messages include at least one of legacy system state changes, legacy system mode changes, legacy system resource changes, responses to remote system commands, message management.
  • the polling proxy comprises data polling.
  • the data polling comprises polling for data including at least one of internal state data and resource data of the legacy system, and data that indicates at least one of a change of state and a change of resources.
  • the polling proxy compares data received during data polling to data from at least one previous query, wherein the polling proxy infers from the comparison at least one of state changes and resource changes.
  • the at least one proxy includes an injection proxy running on the processor.
  • the injection proxy is a transparent pass-through for a first message exchanged between the remote system and the legacy system, wherein the first message is related to a non-polling function of the legacy system, wherein in response to the first message received from the remote system the injection proxy passes the first message to the legacy system, wherein in response to the first message received from the legacy system the injection proxy passes the first message to the remote system.
  • the injection proxy manages polling data of a second message exchanged between the remote system and the legacy system, wherein the second message is related to a polling function of the legacy system.
  • the injection proxy In response to the second message received from the remote system, the injection proxy generates a third message and sends the third message to the legacy system, wherein the third message is generated by injecting polling commands into the second message.
  • the injection proxy In response to the second message received from the legacy system, the injection proxy generates a fourth message and sends the fourth message to the remote system, wherein the fourth message is generated by removing polling information from the second message.
  • the at least one proxy includes a rewrite proxy, wherein the rewrite proxy rewrites sequence numbers of messages that pass between the remote system and the legacy system.
  • the rewrite proxy detects a sequence number of the second message is shared as the sequence number of the first message.
  • the rewrite proxy rewrites sequence numbers of the first message, wherein a first sequence count corresponding to the first message between the rewrite proxy and the remote system is continuous, wherein a second sequence count corresponding to the first message between the rewrite proxy and the legacy system is continuous.
  • the rewrite proxy rewrites sequence numbers of the second message, wherein a third sequence count corresponding to the second message between the rewrite proxy and the remote system is continuous, wherein a fourth sequence count corresponding to the second message between the rewrite proxy and the legacy system is continuous.
  • Embodiments described herein include a method comprising establishing an interface with a processing component of a legacy system installed at a location.
  • the processing component uses a proprietary protocol for processing data of the legacy system.
  • the method comprises using a protocol with the interface to exchange data with the processing component, wherein the protocol corresponds to the proprietary protocol.
  • the method comprises communicating between the interface and a remote system via a communication device and a wireless channel.
  • the communicating comprises controlling communications by passing commands from the remote system to the legacy system, and passing the data of the legacy system to the remote system.
  • Embodiments described herein include a method comprising: establishing an interface with a processing component of a legacy system installed at a location, wherein the processing component uses a proprietary protocol for processing data of the legacy system; using a protocol with the interface to exchange data with the processing component, wherein the protocol corresponds to the proprietary protocol; and communicating between the interface and a remote system via a communication device and a wireless channel, wherein the communicating comprises controlling communications by passing commands from the remote system to the legacy system, and passing the data of the legacy system to the remote system.
  • the communication device comprises a radio frequency (RF) device.
  • RF radio frequency
  • the communication device comprises a cellular communication device, wherein the cellular communication device communicates with cellular-enabled systems via a cellular network.
  • the cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, and a Long Term Evolution (LTE) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • the communication device comprises a broadband communication device.
  • the communication device comprises a WiFi communication device.
  • the communication device comprises a Z-Wave communication device.
  • the communication device comprises a Zigbee communication device.
  • the communication device comprises a plain old telephone service (POTS) device.
  • POTS plain old telephone service
  • the communication device comprises at least one of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • POTS plain old telephone service
  • the communication device comprises at least two of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
  • 3G Third Generation
  • HSPA High Speed Packet Access
  • EVDO Enhanced Voice-Data Optimized
  • LTE Long Term Evolution
  • POTS plain old telephone service
  • the remote system comprises one or more of a server, network operations center, central monitoring station, network device, gateway, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
  • the legacy system is a control system installed at the location, wherein the control system comprises a plurality of controlled devices.
  • the plurality of controlled devices comprises one or more of thermostats, lights, locks, sensors, detectors, security devices, appliances, cameras, network devices, controllers, control panel processors, Internet Protocol (IP) devices, Z-Wave devices, and Zigbee devices.
  • IP Internet Protocol
  • the method comprises enrolling as a known device at the legacy system the interface module.
  • the event data comprises data of the controlled components.
  • the processing component comprises a serial bus of the control system, wherein the proprietary protocol is a serial protocol.
  • the plurality of controlled devices is coupled to the serial bus and registered with a controller of the control system.
  • the method comprises transmitting a status report to the remote system via the communication device and a reporting interface module.
  • the method comprises receiving the status report from the legacy system at the reporting interface module.
  • the method comprises receiving at the reporting interface module the event data from the legacy system, wherein the event data comprises state data of the control system and the controlled devices.
  • the method comprises generating at the reporting interface module the status report from the event data and the state data.
  • the method comprises transmitting the status report to the remote system via at least one intermediate system.
  • the method comprises receiving at the interface module event data asynchronously transmitted by the legacy system and passing the event data to the remote system via the communication device.
  • the method comprises receiving at the communication device polling requests from the remote system and passing the polling requests to the legacy system via the interface module.
  • the method comprises the communication device conducting polling operations on behalf of the remote system.
  • the method comprises sending the event data received from the legacy system in response to the polling operations to the remote system.
  • the method comprises buffering the event data prior to sending the event data to the remote system.
  • the method comprises upon receiving the event data retransmitting the event data to the remote system.
  • the protocol corresponding to the proprietary protocol comprises an abbreviated command set.
  • the protocol comprises a protocol translator that maps between a first set of commands of the legacy system and a second set of commands of the remote system.
  • the method comprises executing at the interface at least one proxy.
  • the at least one proxy comprises configuration parameters, wherein the configuration parameters include at least one of enable, disable, automatic-sense on, automatic-sense off, legacy system type, interface module type, polling type, polling level, polling commands, polling rate, and statistic period.
  • the method comprises setting via the remote system configuration parameters of the at least one proxy.
  • the method comprises automatically determining and setting configuration parameters of the at least one proxy by the at least one proxy using detected information of at least one of the legacy system and the remote system.
  • the at least one proxy includes a polling proxy, wherein the polling proxy is an intermediary between the remote system and the legacy system.
  • the polling proxy at least one of processes, parses, translates protocol, adjusts timing, buffers, and queues messages exchanged between the remote system and the legacy system.
  • the polling proxy comprises message polling.
  • the message polling comprises providing polling commands that prompt for messages exchanged between the interface module and the legacy system, wherein the messages include at least one of legacy system state changes, legacy system mode changes, legacy system resource changes, responses to remote system commands, message management.
  • the polling proxy comprises data polling.
  • the data polling comprises polling for data including at least one of internal state data and resource data of the legacy system,
  • the data polling comprises polling for data that indicates at least one of a change of state and a change of resources.
  • the polling proxy compares data received during data polling to data from at least one previous query, wherein the polling proxy infers from the comparison at least one of state changes and resource changes.
  • the at least one proxy includes an injection proxy running on the processor.
  • the injection proxy is a transparent pass-through for a first message exchanged between the remote system and the legacy system, wherein the first message is related to a non-polling function of the legacy system, wherein in response to the first message received from the remote system the injection proxy passes the first message to the legacy system, wherein in response to the first message received from the legacy system the injection proxy passes the first message to the remote system.
  • the injection proxy manages polling data of a second message exchanged between the remote system and the legacy system, wherein the second message is related to a polling function of the legacy system.
  • the injection proxy In response to the second message received from the remote system, the injection proxy generates a third message and sends the third message to the legacy system, wherein the third message is generated by injecting polling commands into the second message.
  • the injection proxy In response to the second message received from the legacy system, the injection proxy generates a fourth message and sends the fourth message to the remote system, wherein the fourth message is generated by removing polling information from the second message.
  • the at least one proxy includes a rewrite proxy, wherein the rewrite proxy rewrites sequence numbers of messages that pass between the remote system and the legacy system.
  • the rewrite proxy detects a sequence number of the second message is shared as the sequence number of the first message.
  • the rewrite proxy rewrites sequence numbers of the first message, wherein a first sequence count corresponding to the first message between the rewrite proxy and the remote system is continuous, wherein a second sequence count corresponding to the first message between the rewrite proxy and the legacy system is continuous.
  • the rewrite proxy rewrites sequence numbers of the second message, wherein a third sequence count corresponding to the second message between the rewrite proxy and the remote system is continuous, wherein a fourth sequence count corresponding to the second message between the rewrite proxy and the legacy system is continuous.
  • the method comprises scheduling with a scheduling engine automations and events of associated devices coupled to the communication device.
  • the method comprises controlling communications by controlling at least one of protocol translation, communication translation, and timing constraints of communication events.
  • computer networks suitable for use with the embodiments described herein include local area networks (LAN), wide area networks (WAN), Internet, or other connection services and network variations such as the world wide web, the public internet, a private internet, a private computer network, a public network, a mobile network, a cellular network, a value-added network, and the like.
  • Computing devices coupled or connected to the network may be any microprocessor controlled device that permits access to the network, including terminal devices, such as personal computers, workstations, servers, mini computers, main-frame computers, laptop computers, mobile computers, palm top computers, hand held computers, mobile phones, TV set-top boxes, or combinations thereof.
  • the computer network may include one of more LANs, WANs, Internets, and computers.
  • the computers may serve as servers, clients, or a combination thereof.
  • the integrated security system can be a component of a single system, multiple systems, and/or geographically separate systems.
  • the integrated security system can also be a subcomponent or subsystem of a single system, multiple systems, and/or geographically separate systems.
  • the integrated security system can be coupled to one or more other components (not shown) of a host system or a system coupled to the host system.
  • One or more components of the integrated security system and/or a corresponding system or application to which the integrated security system is coupled or connected includes and/or runs under and/or in association with a processing system.
  • the processing system includes any collection of processor-based devices or computing devices operating together, or components of processing systems or devices, as is known in the art.
  • the processing system can include one or more of a portable computer, portable communication device operating in a communication network, and/or a network server.
  • the portable computer can be any of a number and/or combination of devices selected from among personal computers, personal digital assistants, portable computing devices, and portable communication devices, but is not so limited.
  • the processing system can include components within a larger computer system.
  • the processing system of an embodiment includes at least one processor and at least one memory device or subsystem.
  • the processing system can also include or be coupled to at least one database.
  • the term “processor” as generally used herein refers to any logic processing unit, such as one or more central processing units (CPUs), digital signal processors (DSPs), application-specific integrated circuits (ASIC), etc.
  • the processor and memory can be monolithically integrated onto a single chip, distributed among a number of chips or components, and/or provided by some combination of algorithms.
  • the methods described herein can be implemented in one or more of software algorithm(s), programs, firmware, hardware, components, circuitry, in any combination.
  • Communication paths couple the components and include any medium for communicating or transferring files among the components.
  • the communication paths include wireless connections, wired connections, and hybrid wireless/wired connections.
  • the communication paths also include couplings or connections to networks including local area networks (LANs), metropolitan area networks (MANs), wide area networks (WANs), proprietary networks, interoffice or backend networks, and the Internet.
  • LANs local area networks
  • MANs metropolitan area networks
  • WANs wide area networks
  • proprietary networks interoffice or backend networks
  • the Internet and the Internet.
  • the communication paths include removable fixed mediums like floppy disks, hard disk drives, and CD-ROM disks, as well as flash RAM, Universal Serial Bus (USB) connections, RS-232 connections, telephone lines, buses, and electronic mail messages.
  • USB Universal Serial Bus
  • aspects of the integrated security system and corresponding systems and methods described herein may be implemented as functionality programmed into any of a variety of circuitry, including programmable logic devices (PLDs), such as field programmable gate arrays (FPGAs), programmable array logic (PAL) devices, electrically programmable logic and memory devices and standard cell-based devices, as well as application specific integrated circuits (ASICs).
  • PLDs programmable logic devices
  • FPGAs field programmable gate arrays
  • PAL programmable array logic
  • ASICs application specific integrated circuits
  • microcontrollers with memory such as electronically erasable programmable read only memory (EEPROM)
  • embedded microprocessors firmware, software, etc.
  • aspects of the integrated security system and corresponding systems and methods may be embodied in microprocessors having software-based circuit emulation, discrete logic (sequential and combinatorial), custom devices, fuzzy (neural) logic, quantum devices, and hybrids of any of the above device types.
  • the underlying device technologies may be provided in a variety of component types, e.g., metal-oxide semiconductor field-effect transistor (MOSFET) technologies like complementary metal-oxide semiconductor (CMOS), bipolar technologies like emitter-coupled logic (ECL), polymer technologies (e.g., silicon-conjugated polymer and metal-conjugated polymer-metal structures), mixed analog and digital, etc.
  • MOSFET metal-oxide semiconductor field-effect transistor
  • CMOS complementary metal-oxide semiconductor
  • bipolar technologies like emitter-coupled logic (ECL)
  • polymer technologies e.g., silicon-conjugated polymer and metal-conjugated polymer-metal structures
  • mixed analog and digital etc.
  • any system, method, and/or other components disclosed herein may be described using computer aided design tools and expressed (or represented), as data and/or instructions embodied in various computer-readable media, in terms of their behavioral, register transfer, logic component, transistor, layout geometries, and/or other characteristics.
  • Computer-readable media in which such formatted data and/or instructions may be embodied include, but are not limited to, non-volatile storage media in various forms (e.g., optical, magnetic or semiconductor storage media) and carrier waves that may be used to transfer such formatted data and/or instructions through wireless, optical, or wired signaling media or any combination thereof.
  • Examples of transfers of such formatted data and/or instructions by carrier waves include, but are not limited to, transfers (uploads, downloads, e-mail, etc.) over the Internet and/or other computer networks via one or more data transfer protocols (e.g., HTTP, FTP, SMTP, etc.).
  • data transfer protocols e.g., HTTP, FTP, SMTP, etc.
  • a processing entity e.g., one or more processors
  • processors within the computer system in conjunction with execution of one or more other computer programs.
  • the words “comprise,” “comprising,” and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in a sense of “including, but not limited to.” Words using the singular or plural number also include the plural or singular number respectively. Additionally, the words “herein,” “hereunder,” “above,” “below,” and words of similar import, when used in this application, refer to this application as a whole and not to any particular portions of this application. When the word “or” is used in reference to a list of two or more items, that word covers all of the following interpretations of the word: any of the items in the list, all of the items in the list and any combination of the items in the list.

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Abstract

Embodiments include a device comprising an interface module for interfacing with proprietary legacy systems. The interface module comprises a data interface for interfacing with a processing component of the legacy system, where the processing component uses a proprietary protocol for processing data of the legacy system. The interface module includes a protocol module that comprises a protocol corresponding to the proprietary protocol of the legacy system, and the interface module uses the protocol to exchange data with the processing component. The interface module includes a communication device that communicates with a remote system via a wireless channel. The interface module controls communications that include passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.

Description

RELATED APPLICATIONS
This application claims the benefit of U.S. Patent Application No. 61/677,415, filed Jul. 30, 2012.
This application claims the benefit of U.S. Patent Application No. 61/782,345, filed Mar. 14, 2013.
This application claims the benefit of U.S. Patent Application No. 61/802,077, filed Mar. 15, 2013.
This application is a continuation in part application of U.S. patent application Ser. No. 13/718,851, filed Dec. 18, 2012 issued as U.S. Pat. No. 10,156,831 on Dec. 18, 2018.
This application is a continuation in part application of U.S. patent application Ser. No. 13/932,837, filed Jul. 1, 2013 issued as U.S. Pat. No. 9,621,408 on Apr. 11, 2017.
This application is a continuation in part application of U.S. patent application Ser. No. 11/761,745, filed Jun. 12, 2007 issued as U.S. Pat. No. 8,635,350 on Jan. 21, 2014.
This application is a continuation in part application of U.S. patent application Ser. No. 12/019,568, filed Jan. 24, 2008 issued as U.S. Pat. No. 10,142,392 on Nov. 27, 2018.
This application is a continuation in part application of U.S. patent application Ser. No. 13/925,181, filed Jun. 24, 2013 issued as U.S. Pat. No. 10,339,791 on Jul. 2, 2019.
This application is a continuation in part application of U.S. patent application Ser. No. 13/531,757, filed Jun. 25, 2012 now abandoned.
This application is a continuation in part application of U.S. patent application Ser. No. 13/311,365, filed Dec. 5, 2011 issued as U.S. Pat. No. 9,141,276 on Sep. 22, 2015.
This application is a continuation in part application of U.S. patent application Ser. No. 13/335,279, filed Dec. 22, 2011 issued as U.S. Pat. No. 11,113,950 on Sep. 7, 2021.
This application is a continuation in part application of U.S. patent application Ser. No. 12/539,537, filed Aug. 11, 2009 issued as U.S. Pat. No. 10,156,959 on Dec. 18, 2018.
This application is a continuation in part application of U.S. patent application Ser. No. 12/750,470, filed Mar. 30, 2010 issued as U.S. Pat. No. 9,191,228 on Nov. 17, 2015.
This application is a continuation in part application of U.S. patent application Ser. No. 13/104,932, filed May 10, 2011
This application is a continuation in part application of U.S. patent application Ser. No. 13/929,568, filed Jun. 27, 2013 now abandoned.
This application is a continuation in part application of U.S. patent application Ser. No. 13/244,008, filed Sep. 23, 2011 issued as U.S. Pat. No. 8,963,713 on Feb. 24, 2015.
TECHNICAL FIELD
The embodiments described herein relate generally to a method and apparatus for improving the capabilities of security systems in premise applications.
BACKGROUND
The field of home and small business security is dominated by technology suppliers who build comprehensive ‘closed’ security systems, where the individual components (sensors, security panels, keypads) operate solely within the confines of a single vendor solution. For example, a wireless motion sensor from vendor A cannot be used with a security panel from vendor B. Each vendor typically has developed sophisticated proprietary wireless technologies to enable the installation and management of wireless sensors, with little or no ability for the wireless devices to operate separate from the vendor's homogeneous system. Furthermore, these traditional systems are extremely limited in their ability to interface either to a local or wide area standards-based network (such as an IP network); most installed systems support only a low-bandwidth, intermittent connection utilizing phone lines or cellular (RF) backup systems. Wireless security technology from providers such as GE Security, Honeywell, and DSC/Tyco are well known in the art, and are examples of this proprietary approach to security systems for home and business.
Furthermore, with the proliferation of the internet, ethernet and WiFi local area networks (LANs) and advanced wide area networks (WANs) that offer high bandwidth, low latency connections (broadband), as well as more advanced wireless WAN data networks (e.g. GPRS, 3G (HSPA), EVDO, LTE, or CDMA 1xRTT) there increasingly exists the networking capability to extend these traditional security systems to offer enhanced functionality. In addition, the proliferation of broadband access has driven a corresponding increase in home and small business networking technologies and devices. It is desirable to extend traditional security systems to encompass enhanced functionality such as the ability to control and manage security systems from the world wide web, cellular telephones, or advanced function internet-based devices. Other desired functionality includes an open systems approach to interface home security systems to home and small business networks.
Due to the proprietary approach described above, the traditional vendors are the only ones capable of taking advantage of these new network functions. To date, even though the vast majority of home and business customers have broadband network access in their premises, most security systems do not offer the advanced capabilities associated with high speed, low-latency LANs and WANs. This is primarily because the proprietary vendors have not been able to deliver such technology efficiently or effectively. Solution providers attempting to address this need are becoming known in the art, including three categories of vendors: traditional proprietary hardware providers such as Honeywell and GE Security; third party hard-wired module providers such as Alarm.com, NextAlarm, and IP Datatel; and new proprietary systems providers such as InGrid.
Shortcomings of the prior art technologies of the traditional proprietary hardware providers are inherent in the continued proprietary approach of these vendors. As they develop technology in this area it once again operates only with the hardware from that specific vendor, ignoring the need for a heterogeneous, cross-vendor solution. Yet another shortcoming of the prior art technologies of the traditional proprietary hardware providers arises due to the lack of experience and capability of these companies in creating open internet and web based solutions, and consumer friendly interfaces.
Yet another shortcoming of the prior art technologies of the third party hard-wired module providers arises due to the installation and operational complexities and functional limitations associated with hardwiring a new component into existing security systems. Moreover, the new proprietary systems providers are faced with a need to discard all prior technologies, and implement an entirely new form of security system to access the new functionalities associated with broadband and wireless data networks. There remains, therefore, a need for systems, devices, and methods that easily interface to and control the existing proprietary security technologies utilizing a variety of wireless technologies.
INCORPORATION BY REFERENCE
Each patent, patent application, and/or publication mentioned in this specification is herein incorporated by reference in its entirety to the same extent as if each individual patent, patent application, and/or publication was specifically and individually indicated to be incorporated by reference.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a block diagram of the integrated security system, under an embodiment.
FIG. 2A is a block diagram of a security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment.
FIG. 2B is another block diagram of the security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment.
FIG. 3 is a flow diagram for integrating or interfacing the external control and management system (SPIM) with the security panel of the legacy security system, under an embodiment.
FIG. 4 is a block diagram of components of the integrated security system, under an embodiment.
FIG. 5 is a block diagram of the gateway software or applications, under an embodiment.
FIG. 6 is a block diagram of the gateway components, under an embodiment.
FIG. 7 is a block diagram of IP device integration with a premise network, under an embodiment.
FIG. 8 is a block diagram of IP device integration with a premise network, under an alternative embodiment.
FIG. 9 is a block diagram of a touchscreen, under an embodiment.
FIG. 10 is an example screenshot of a networked security touchscreen, under an embodiment.
FIG. 11 is a block diagram of network or premise device integration with a premise network, under an embodiment.
FIG. 12 is a block diagram of network or premise device integration with a premise network, under an alternative embodiment.
FIG. 13 is a flow diagram for a method of forming a security network including integrated security system components, under an embodiment.
FIG. 14 is a flow diagram for a method of forming a security network including integrated security system components and network devices, under an embodiment.
FIG. 15 is a flow diagram for installation of an IP device into a private network environment, under an embodiment.
FIG. 16 is a block diagram showing communications among IP devices of the private network environment, under an embodiment.
FIG. 17 is a flow diagram of a method of integrating an external control and management application system with an existing security system, under an embodiment.
FIG. 18 is a block diagram of an integrated security system wirelessly interfacing to proprietary security systems, under an embodiment.
FIG. 19 is a flow diagram for wirelessly ‘learning’ the gateway into an existing security system and discovering extant sensors, under an embodiment.
FIG. 20 is a block diagram of a security system in which the legacy panel is replaced with a wireless security panel wirelessly coupled to a gateway, under an embodiment.
FIG. 21 is a block diagram of a security system in which the legacy panel is replaced with a wireless security panel wirelessly coupled to a gateway, and a touchscreen, under an alternative embodiment.
FIG. 22 is a block diagram of a security system in which the legacy panel is replaced with a wireless security panel connected to a gateway via an Ethernet coupling, under another alternative embodiment.
FIG. 23 is a flow diagram for automatic takeover of a security system, under an embodiment.
FIG. 24 is a flow diagram for automatic takeover of a security system, under an alternative embodiment.
DETAILED DESCRIPTION
Embodiments described herein include systems and methods for improving the capabilities of security systems in home and business applications. More particularly, the embodiments provide systems and methods for utilizing Internet Protocol (IP)-based solutions for interfacing to and controlling security systems from within a home or business, and extending such control and interface to remote devices outside the premise. Although the description herein includes many specifics for the purposes of illustration, anyone of ordinary skill in the art will appreciate that many variations and alterations to the following details are within the scope of the invention. Thus, the following embodiments are set forth without any loss of generality to, and without imposing limitations upon, the claimed invention.
Embodiments described herein use wireless-to-serial encapsulation (e.g., RF-to-serial encapsulation, WiFi-to-serial encapsulation, etc.) to move serial device drivers to other locations in a network (near the device or radio) to separate them from the wireless management device or access point, and the encapsulation allows that device to appear like a local serial device for application purposes. As such, the embodiments include a wireless (e.g., radio frequency (RF), etc.) system that enables a system provider or consumer to extend the capabilities of an existing or legacy system that is a proprietary system installed at a location (e.g., home, office, etc.). For example, the embodiments described in detail herein include a wireless system that enables a security system provider or consumer to extend the capabilities of a legacy security system installed at a home and/or office, but the embodiments are not limited to interfacing with a security system and can interface with any type of legacy or proprietary system.
The integrated security system of an embodiment includes an RF-capable Gateway device and associated software operating on the Gateway device physically located within RF range of the security system or a second RF device described herein. Alternatively, the Gateway device can be a touchscreen device coupled to and/or incorporating functionality of the Gateway as described in detail herein. The system also includes an interface device coupled between the Gateway device and the security system. This interface device, generally referred to herein as the Security Panel Interface Module (“SPIM”) or the “Cricket”, is located within the same premise as the security system and connected to the security panel through the security panel wiring interface or bus. The SPIM includes an one or more RF communication devices or modules that enable an RF interface, or other wired or wireless interface, to the security system by the Gateway and/or other remote RF device. The one or more RF communication devices or modules include one or more of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a radio frequency (RF) communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a proprietary RF communication device (e.g., 900 MHz, 433 MHz, etc.), to name a few. The integrated security system also optionally includes a web server, application server, and remote database providing a persistent store for information related to the system. One or more alternative embodiments may incorporate all or part of the SPIM functionality described herein as an optional or intrinsic component of a security panel.
The security systems of an embodiment, referred to herein as the iControl security system or integrated security system, extend the value of traditional home security by adding broadband access and the advantages of remote home monitoring and home control through the formation of a security network including components of the integrated security system integrated with a conventional premise security system and a premise local area network (LAN). With the integrated security system, conventional home security sensors, cameras, touchscreen keypads, lighting controls, and/or Internet Protocol (IP) devices in the home (or business) become connected devices that are accessible anywhere in the world from a web browser, mobile phone or through content-enabled touchscreens. The integrated security system experience allows security operators to both extend the value proposition of their monitored security systems and reach new consumers that include broadband users interested in staying connected to their family, home and property when they are away from home.
The integrated security system of an embodiment includes security servers (also referred to herein as iConnect servers or security network servers) and an iHub gateway (also referred to herein as the gateway, the iHub, or the iHub client) that couples or integrates into a home network (e.g., LAN) and communicates directly with the home security panel, in both wired and wireless installations. The security system of an embodiment automatically discovers the security system components (e.g., sensors, etc.) belonging to the security system and connected to a control panel of the security system and provides consumers with full two-way access via web and mobile portals. The gateway and the SPIM of an embodiment support various wireless protocols as described in detail herein and can therefore interconnect and communicate with a wide range of control panels offered by security system providers. Service providers and users can then extend the security system capabilities with the additional IP cameras, lighting modules or security devices such as interactive touchscreen keypads. The integrated security system adds an enhanced value to these security systems by enabling consumers to stay connected through email and SMS alerts, photo push, proprietary mobile push interfaces, event-based video capture and rule-based monitoring and notifications. This solution extends the reach of home security to households with broadband access.
The integrated security system builds upon the foundation afforded by traditional security systems by layering broadband and mobile access, IP cameras, interactive touchscreens, and an open approach to home automation on top of traditional security system configurations. The integrated security system is easily installed and managed by the security operator, and simplifies the traditional security installation process, as described below.
The integrated security system provides an open systems solution to the home security market. As such, the foundation of the integrated security system customer premises equipment (CPE) approach has been to abstract devices, and allows applications to manipulate and manage multiple devices from any vendor. The integrated security system DeviceConnect technology that enables this capability supports protocols, devices, and panels from GE Security, DSC, and Honeywell, as well as consumer devices using Z-Wave, Zigbee, IP cameras (e.g., Ethernet, WiFi, and Homeplug), and IP touchscreens. The DeviceConnect technology is a device abstraction layer that enables any device or protocol layer to interoperate with integrated security system components. This architecture enables the addition of new devices supporting any of these interfaces, as well as the addition of new protocols.
A benefit of DeviceConnect is that it provides supplier flexibility. The same consistent touchscreen, web, and mobile user experience operates unchanged on whatever security equipment is selected by a security system provider, with the system provider's choice of IP cameras, backend data center and central station software.
The integrated security system provides a complete system that integrates or layers on top of a conventional host security system available from a security system provider. The security system provider therefore can select different components or configurations to offer for both the SPIM and the Gateway (e.g., CDMA, GPRS, 3G, LTE, no cellular, etc.) as well as have iControl modify the integrated security system configuration for the system provider's specific needs (e.g., change the functionality of the web or mobile portal, add a GE or Honeywell-compatible TouchScreen, etc.).
The integrated security system integrates with the security system provider infrastructure for central station reporting directly via Broadband and cellular (e.g. GPRS, 3G, LTE, 1xRTT, etc.) alarm transmissions. Traditional dial-up reporting is supported via the standard panel connectivity. Additionally, the integrated security system provides interfaces for advanced functionality to the CMS, including enhanced alarm events, system installation optimizations, system test verification, video verification, 2-way voice over IP and GSM. The alarm report of an embodiment is generated by the security panel, and then relayed over broadband or cellular by the SPIM using a cellular modem, as described in detail herein. Alternatively, the SPIM relays the alarm report over RF (e.g., Wifi, etc.) to the Gateway and the Gateway communicates the alarm report to the CMS over Broadband or cellular, depending on the physical configuration of the Gateway and SPIM (i.e., where the cellular modem and broadband connection interfaces are configured). In another embodiment, the SPIM processes security system data received from the Security System and generates the alarm report in the SPIM, and uses the cellular or broadband connection to forward the alarm report to the Gateway and/or the CMS. In yet another embodiment, the Gateway processes security system data received from the Security System via the SPIM and generates the alarm report in the Gateway, and forwards the alarm report to the CMS.
The integrated security system is an IP centric system that includes broadband connectivity so that the gateway augments the existing security system with broadband and cellular connectivity. If broadband is down or unavailable cellular may be used, for example. The integrated security system supports cellular connectivity using an optional wireless package that includes a cellular modem in the gateway. The integrated security system treats the cellular connection as a higher cost though flexible option for data transfers. In an embodiment the cellular connection is only used to route alarm events (e.g., for cost), however the gateway can be configured (e.g., through the iConnect server interface) to act as a primary channel and pass any or all events over cellular. Consequently, the integrated security system does not interfere with the current plain old telephone service (POTS) security panel interface. Alarm events can still be routed through POTS; however the gateway also allows such events to be routed through a broadband or cellular connection as well.
In an embodiment, the SPIM can couple or connect to the POTS connection of the security panel and use this coupling to receive alarm reports that the SPIM or Gateway then forward to the CMS. The integrated security system provides a web application interface to the CSR tool suite as well as XML or REST web services interfaces for programmatic integration between the security system provider's existing call center products. The integrated security system includes, for example, APIs that allow the security system provider to integrate components of the integrated security system into a custom call center interface. The APIs include XML or REST web service APIs for integration of existing security system provider call center applications with the integrated security system service. All functionality available in the CSR Web application is provided with these API sets. The Java and XML-based APIs of the integrated security system support provisioning, billing, system administration, CSR, central station, portal user interfaces, and content management functions, to name a few. The integrated security system can provide a customized interface to the security system provider's billing system, or alternatively can provide security system developers with APIs and support in the integration effort.
The integrated security system provides or includes business component interfaces for provisioning, administration, and customer care to name a few. Standard templates and examples are provided with a defined customer professional services engagement to help integrate OSS/BSS systems of a Service Provider with the integrated security system.
The integrated security system components support and allow for the integration of customer account creation and deletion with a security system. The iConnect APIs provides access to the provisioning and account management system in iConnect and provide full support for account creation, provisioning, and deletion. Depending on the requirements of the security system provider, the iConnect APIs can be used to completely customize any aspect of the integrated security system backend operational system.
The integrated security system includes a gateway that supports the following standards-based interfaces, to name a few: Ethernet IP communications via Ethernet ports on the gateway, and standard XML/REST/TCP/IP protocols and ports are employed over secured SSL sessions; USB 2.0 via ports on the gateway; 802.11b/g/n IP communications; GSM/GPRS/3G/LTE RF WAN communications; CDMA 1xRTT RF WAN communications (optional, can also support EVDO and 3G technologies).
The gateway supports the following proprietary interfaces, to name a few: interfaces including Dialog RF network (319.5 MHz) and RS485 Superbus 2000 wired interface; RF mesh network (908 MHz); and interfaces including RF network (345 MHz) and RS485/RS232 bus wired interfaces.
Regarding security for the IP communications (e.g., authentication, authorization, encryption, anti-spoofing, etc.), the integrated security system uses SSL or other AES-type encryption techniques to encrypt IP traffic, using server and client-certificates for authentication, as well as authentication in the data sent over the SSL-encrypted channel. For encryption, integrated security system issues public/private key pairs at the time/place of manufacture, and certificates are not stored in any online storage in an embodiment.
The integrated security system does not need any special rules at the customer premise and/or at the security system provider central station because the integrated security system makes outgoing connections using TCP over the standard HTTP and HTTPS ports. Provided outbound TCP connections are allowed then no special requirements on the firewalls are necessary.
FIG. 1 is a block diagram of the integrated security system 100, under an embodiment. The integrated security system 100 of an embodiment includes the gateway 102 and the security servers 104 coupled to the conventional home security system 110. At a customer's home or business, the gateway 102 connects and manages the diverse variety of home security and self-monitoring devices. The gateway 102 communicates with the iConnect Servers 104 located in the service provider's data center 106 (or hosted in integrated security system data center), and the communication occurs via a communication network 108 or other network (e.g., cellular network, internet, etc.). These servers 104 manage the system integrations necessary to deliver the integrated system service described herein. The combination of the gateway 102 and the iConnect servers 104 enable a wide variety of remote client devices 120 (e.g., PCs, mobile phones and PDAs) allowing users to remotely stay in touch with their home, business and family. In addition, the technology allows home security and self-monitoring information, as well as relevant third party content such as traffic and weather, to be presented in intuitive ways within the home, such as on advanced touchscreen keypads.
The integrated security system service (also referred to as iControl service) can be managed by a service provider via browser-based Maintenance and Service Management applications that are provided with the iConnect Servers. Or, if desired, the service can be more tightly integrated with existing OSS/BSS and service delivery systems via the iConnect web services-based XML APIs.
The integrated security system service can also coordinate the sending of alarms to the home security Central Monitoring Station (CMS) 199. Alarms are passed to the CMS 199 using standard protocols such as Contact ID or SIA and can be generated from the home security panel location, by iHub technology (embedded in a Gateway and/or SPIM as described with reference to FIG. 2 ) as well as by iConnect server 104 conditions (such as lack of communications with the integrated security system). In addition, the link between the security servers 104 and CMS 199 provides tighter integration between home security and self-monitoring devices and the gateway 102. Such integration enables advanced security capabilities such as the ability for CMS personnel to view photos taken at the time a burglary alarm was triggered. For maximum security, the gateway 102 and iConnect servers 104 support the use of a mobile network (GPRS, 3G, LTE, EVDO, and CDMA options are available) as a backup to the primary broadband connection.
The SPIM is included as a component in the integrated security system of an embodiment to enable the use of wireless-to-serial encapsulation in the security system. The integrated security system therefore integrates broadband and mobile access and control with conventional security systems and premise devices to provide a multi-mode security network (broadband, cellular/GSM/3G/LTE, POTS access) that enables users to remotely stay connected to their premises. The integrated security system, while delivering remote premise monitoring and control functionality to conventional monitored premise protection, complements existing premise protection equipment. The integrated security system integrates into the premise network and couples wirelessly with the conventional security panel, enabling broadband access to premise security systems. Automation devices (cameras, lamp modules, thermostats, etc.) can be added, enabling users to remotely see live video and/or pictures and control home devices via their personal web portal or webpage, mobile phone, and/or other remote client device. Users can also receive notifications via email or text message when happenings occur, or do not occur, in their home.
Generally, the SPIM of an embodiment enables a remote system (e.g., gateway, touchscreen, security server, central monitoring station, etc.) to communicate with a system or device that internally uses a proprietary protocol (“proprietary system”). In an embodiment the system that uses the proprietary protocol is a legacy security system, but this could be any type of system or device using a proprietary protocol. The SPIM functions in the role of a monitoring-and-control device in that it performs the functions necessary to pass data and commands from the remote device or system to the proprietary system, and to pass data of events reported by the proprietary system from the proprietary system to the remote device or system.
The SPIM, enabled as a cellular or broadband device, enables legacy security systems to communicate with a remote server or other remote system to provide remote control of the security system, remote display of security status and data, and notifications regarding user specified condition changes. The SPIM also enables alarm notifications and reporting, where alarm reports are generated by the security system and communicated to the SPIM via an interface or, alternatively, the alarm reports are generated by the SPIM using data received at the SPIM from the security system. Additionally, the SPIM enables remote control of home management devices that include but are not limited to Z-Wave devices, Zigbee devices, WiFi devices, cameras, touch screens, lights, locks, thermostats, and blinds, to name a few.
The SPIM communicates with the proprietary system using any protocol(s) required of the proprietary system. Similarly, the SPIM communicates with remote systems or devices using one or more protocols as appropriate to the remote system/device and/or network couplings or connections between the SPIM and the remote system/device.
The integrated security system of an embodiment uses Transmission Control Protocol (TCP) for commands from the remote system to the SPIM, and User Datagram Protocol (UDP) for transmitting to the remote system event data received at the SPIM from the security panel. However, the SPIM can communicate with the remote system using various protocols as appropriate to the communication protocol of the remote system (e.g., serial protocol (may or may not be the same as the serial protocol of the proprietary system), Ethernet (TCP/Internet Protocol (IP)), WiFi (TCP/IP), etc.). Regardless, the SPIM translates between the serial communication protocol of the panel/bus and the protocol of the remote system as appropriate to the direction of the communication.
The SPIM functions to insulate the remote system from low-level implementation details of the proprietary system and provides an interface by which data of the proprietary system is extracted from the proprietary system and communicated to remote systems of a variety of types using any type of communication protocol available as the state of the art. The SPIM further enables the protocol translations necessary for communicating with the proprietary system to be performed at any component of the remote system, including the SPIM.
When the SPIM receives data from proprietary system, the SPIM can directly transmit the proprietary system data to a remote system where the data is processed. Alternatively, the SPIM processes the received data before transmitting the processed data to a remote system. For example, the SPIM can directly transfer the data to an intermediate device (e.g., gateway, IP device on wide area network (WAN), etc.) using an appropriate protocol, and the intermediate device uses a protocol (e.g., SMA protocol, 3G, broadband, etc.) to transmit the data to a remote server where the data is processed. Additionally, the SPIM can directly transfer the data to an intermediate device (e.g., gateway, etc.) using WiFi, Ethernet, or a serial connection and the intermediate device processes the data. Further, the SPIM of an embodiment uses a protocol (e.g., Z-Wave, etc.) as a transport mechanism by which it sends packets to a remote system or device. The embodiments are not however limited to the examples described herein.
In an embodiment in which the proprietary system is a security system, the security system includes a security panel, also referred to as a control panel, or panel. The panel includes a processor and an internal bus or other communication medium that couples the panel to and enables communication with peripheral devices of the security system, where the peripheral devices include one or more of keypads, automation modules, extender modules, and output modules. The security panel can include more than one bus or communication medium. The buses of an embodiment are typically serial buses that are referred to as “multi-drop” buses because they couple to and enable communication with multiple devices, but are not so limited.
The legacy system buses function as polling interfaces by which the security panel polls the security system devices coupled to the bus (and registered with the panel) as to the existence of data, commands, or information that is to be sent to or exchanged with the panel. Inherent in this polling bus communication configuration are tightly constrained timing requirements for the communications between the panel and the coupled devices.
An alternative bus configuration is a point-to-point configuration in which the bus is coupled to the security panel on one end and a single device on the other end of the bus. In this configuration, the panel polls the device as to the availability of data or, alternatively, the device transmits commands or data to panel as they become available.
Because the bus is a serial bus, it cannot be used to communicate directly with systems or devices that are not connected to the bus meaning it cannot communicate directly via various other means of communication (e.g., 3G, wireless, internet, WiFi, etc.). Also, the bus cannot be used to communicate directly with devices that are not able to comply with the strict communication timing constraints. For this reason the SPIM is used to enable communication between the serial bus of the security panel and remote systems that are not on the serial bus.
The SPIM serves as a monitoring-and-control interface between remote systems and the security panel and, in so doing, serves as a protocol translator for those communications. The SPIM is used to manage and control the protocol translation, communication translation (electrical conversion) and timing constraints associated with communication between the panel and remote systems. The handling of control enables the sending of commands from remote systems to the security panel and receiving responses in turn. The monitoring segment enabled by the SPIM deals with the receipt at the remote systems of events and data transmitted or reported by the security panel. Event data sent from the security panel can be asynchronously transmitted by the panel to the remote system but is not so limited. Alternatively, the remote system polls the panel via the SPIM for the events.
Regarding the polling, the SPIM may conduct polling operations on behalf of the remote system. Event data received in response from the panel can be buffered at the SPIM and sent to the remote system in due course, or retransmitted to the remote system immediately upon receipt.
Processing and/or applications relating to the SPIM or operations of the SPIM can be executing on one or more of at least one processor hosted on the SPIM and at least one processor coupled to the SPIM. For example, the applications can be executing on one or more of the remote gateway, the remote touchscreen, and the remote server.
The SPIM of an embodiment makes use of an abbreviated command set (relative to the control panel) that is abstracted away from particular implementations of the panel. In one embodiment, the SPIM includes a protocol translator that maps between specific commands of the underlying system and more generic commands of the remote system. While the translator or translator mapping is a component of the SPIM of an embodiment, it is not so limited and can be hosted in or coupled to one or more other components of remote system.
Regarding the transmission of alarm events to a central monitoring service or station (CMS), the SPIM of an embodiment sends alarm events directly to the CMS (e.g., over at least one of a broadband coupling or connection, or 3G coupling or connection, etc.). The SPIM of an alternative embodiment sends alarm events to an intermediate device (e.g., system, server, etc.), and the intermediate device in turn forwards the alarm events to the CMS. The SPIM of another alternative embodiment sends alarm events through a local gateway or other system or device, and the gateway in turn sends the alarm events to the CMS (e.g., directly, through an intermediate server, etc.).
In accordance with the embodiments described herein, a wireless system (e.g., radio frequency (RF)) is provided that enables a security provider or consumer to extend the capabilities of an existing RF-capable security system or a non-RF-capable security system that has been upgraded to support RF capabilities. The system includes the SPIM that communicates with the proprietary security system using the protocol(s) required of the proprietary system. The SPIM enables the security system to communicate with a remote system to provide remote control of the security system, remote display of security status and data, and notifications regarding user specified condition changes. The system includes an RF-capable Gateway device (physically located within RF range of the RF-capable security system) and associated software operating on the Gateway device. The system also includes a web server, application server, and remote database providing a persistent store for information related to the system.
The SPIM of an embodiment is an all-in one device that includes the components of the SPIM described herein, along with components used for one or more of WiFi communication, 3G communication, Z-Wave, and Zigbee communication. Alternatively, the SPIM includes only the SPIM components described herein, and is coupled to other communication components. For example, one or more of the WiFi communication component, 3G communication component, Z-Wave communication, and Zigbee component can be hosted in the gateway, and the SPIM communicates with the gateway over a serial coupling or connection.
As a general example, FIG. 2A is a block diagram of a security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment. The security system is coupled or connected to the SPIM of the external control and management system via a wired or wireless interface to the security panel bus device. The SPIM is also coupled or connected to the gateway or touchscreen via an RF link. The Gateway is coupled to a broadband network, and the broadband network provides couplings and/or access to network servers comprising numerous information and content sources including web servers, system databases, and applications servers to name a few. The gateway of an embodiment provides the interface between security system and the CMS and/or other designated remote systems and devices for purposes of remote control, monitoring, and management. The broadband network comprises the Internet, including the World Wide Web, and/or any other type of network, such as an intranet, an extranet, a virtual private network (VPN), a mobile network, or a non-TCP/IP based network, for example.
The SPIM of an embodiment includes one or more RF interfaces or communication devices that enable wireless communications with remote devices. For example, the SPIM of an embodiment includes a communication device that is a cellular interface that enables the SPIM to communicate via a remote cellular network directly to remote cellular-enabled systems. The cellular interface enables the SPIM to communicate directly with the external central monitoring station (CMS), and/or to communicate directly with the network servers. The communication device of an embodiment includes any device or combination of wireless communication devices, for example, a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a radio frequency (RF) communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, a proprietary RF communication device (e.g., 900 MHz, 433 MHz, etc.), and a plain old telephone service (POTS) device, to name a few.
The SPIM of an embodiment is coupled or connected to broadband by routing an Ethernet cable from the SPIM into a router or broadband modem. Alternatively, the coupling or connection between the SPIM and broadband includes a WiFi hop to a WiFi Access Point that is then coupled or connected to (or included in) the broadband (e.g., cable, DSL, etc.) modem. In yet another embodiment, the coupling or connection between the SPIM and broadband includes a WiFi hop to a 3G or 4G personal wireless device (e.g., MiFi, cellular telephone, etc.).
Communication between the SPIM and a remote system (e.g., remote server, cellular telephone, etc.) can includes use of a “command channel” over which various commands are sent (e.g., disarm security system, turn on a light, etc.). The command channel of an embodiment comprises at least one of an “always-on” socket connection initiated/maintained by the SPIM, and an ephemeral coupling or connection that is initiated by the remote system sending a shoulder-tap SMS message (after receiving the shoulder-tap, the SPIM opens a socket connection to the server). This command channel is used to get around firewall restrictions, and network-address-space limitations, which make it impossible for the server to simply open a network connection to SPIM. For broadband-connected SPIMs, the “always-on” command channel is used in an embodiment because of the low-latency connection (that is, when sending a command, the remote server sends it on the open channel instead of waiting for a shoulder tap to be received in order to initiate a callback. For cellular-connected SPIMs, the “shoulder-tap initiated” command channel is used in an embodiment to avoid the data-usage and system resources required with keeping the command channel open.
The SPIM of an embodiment also includes an alarm interface that receives an alarm report directly from security system, and sends the report directly to the CMS and/or other designated remote devices via the SPIM communication device. The alarm interface alternatively sends the alarm report to an off-site system or server via the gateway/touchscreen.
As an alternative to receiving an alarm report from the security system, the alarm interface receives security state data or information from the security system, generates an alarm report using the security state information, and sends the generated alarm report directly to one or more of the CMS and/or other designated remote devices. The alarm interface alternatively sends the alarm report to an off-site system or server via the gateway/touchscreen.
The SPIM of an embodiment includes an onboard scheduling and/or rules engine that enables the end-user to program schedules and automations. This is particularly useful for SPIMs that are able to control associated devices (e.g., Z-Wave device, Zigbee device, etc.). For example, some Z-Wave thermostats (e.g., Radio Thermostat if America's CT-100) are not end-user-programmable with different temperature set-points at different times of the day. Running such thermostat schedules on a remote system (e.g., remote server, etc.) is possible; however, the remote system then has to send commands to the thermostat several times a day to change parameters (e.g., heat and/or cool set-points, system modes, fan modes, etc.). The bandwidth, delay, and uncertainty associated with the remote system calling the SPIM with thermostat settings changes can be avoided by running the schedule locally on the SPIM.
The SPIM of an embodiment locally controls automatic actions of an associated system (e.g., causing a light to turn on in response to opening of a door, etc.). This SPIM-based automation logic improves bandwidth and speed by avoiding the requirement to send the event or event information to the remote system, having the logic of the remote system decide that an action is to be taken, and then sending a command back to the SPIM. This is particularly useful when the automation involves a security-panel sensor (e.g., door sensor, window sensor, motion sensor, etc.) triggering a video or snapshot capture from a camera, because the delay in getting the sensor event of the panel to a remote security server, and the resulting capture command making it back to the camera, is often too long for such an automaton to be useful. By having the automation logic run in the SPIM, a relatively shorter delay is realized between the trigger event (e.g., door open), and the action (e.g., video capture).
More particularly, FIG. 2B is another block diagram of a security system integrated with an external control and management system that enables wireless-to-serial encapsulation, under an embodiment. The SPIM 2230 of this embodiment generally comprises a hardware interface module and a driver running on a processor of the Gateway. The hardware interface module couples or connects to the wired bus of the security panel 2211 and manages and controls all direct communication with the panel. The driver running on the Gateway 2220 mediates between the hardware interface module and the user-level applications of the integrated security system.
The SPIM hardware interface module includes but is not limited to a processor (not shown) coupled or connected to a real-time bus interface 2231, a bus protocol or protocol module 2232, and at least one communication device. The communication device of an embodiment includes one or more of a WiFi client module 2233, a cellular interface 2234, and an alarm interface 2235. Generally, however, the communication device comprises any device or combination of wireless communication devices, for example, a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device, to name a few. The SPIM of an embodiment includes a self-contained power source and backup power source but, alternatively, the SPIM is coupled or connected to the power source and backup power source of the security system.
The security system 2210 is connected to the SPIM 2230 of the external control and management system via a wire interface 2280 between a processing component of the security system 2210 and the bus interface 2231 of the SPIM 2230. The processing component to which the bus interface 2231 of an embodiment is coupled is a security panel bus device 2213 of the security panel 2211, but the embodiment is not so limited. Embodiments of the wire interface 2280 include but are not limited to a TTL interface, an RS 232 interface, an RS422 interface, etc.
The SPIM of an embodiment encapsulates proprietary security system data and transmits it to a remote system (e.g., remote server, etc.) where the security system data is parsed and processed. Alternatively, the SPIM encapsulates the proprietary security system data and transmits it to the Gateway where the security system data is parsed and processed. In yet another alternative embodiment, the SPIM parses proprietary security system data, initiates actions appropriate to the data, and sends instructions to the Gateway and/or remote system (e.g., remote server, etc.). Regardless of particular embodiment, the SPIM manages the timing and framing requirements of data exchanges with the security system.
The SPIM couples to the Gateway 2220 via an RF link 2270. The RF link 2270 of this example is a WiFi link to a WiFi access point 2223 of the Gateway, but alternatively can include any type of radio frequency (RF) link (e.g., Z-Wave, Zigbee, cellular, etc.). The wireless link is a hop in the “sandbox” WiFi network described in detail herein. In alternative embodiments the Gateway 2220 is a touchscreen coupled or connected to the Gateway 2220 or a touchscreen incorporating components and/or functionality of the Gateway 2220, as described in detail herein.
The Gateway 2220 is coupled to a broadband network 2230, and the broadband network 2230 provides couplings and/or access to a plurality of information and content sources including one or more web servers 2240, system databases 2250, and applications servers 2260 to name a few. The broadband network 2230 comprises the Internet, including the World Wide Web, and/or any other type of network, such as an intranet, an extranet, a virtual private network (VPN), a mobile network, or a non-TCP/IP based network, for example.
Security system 2210 includes any type home or business security system, such devices including but not limited to a standalone RF home security system or a non-RF-capable wired home security system with an add-on RF interface module as described in detail herein. In an example, security system 2210 includes a security panel (SP) 2211 that acts as the master controller for security system 2210. Examples of such a security panel include but are not limited to the UTC Interlogix Concord, Networx, and Simon panels, the Honeywell Vista and Lynx panels, and similar panels from DSC and Napco. A wireless module 2212 includes the RF hardware and protocol software to enable communication with and control of security system components that include a plurality of wireless devices. The security system components include, for example, door contacts, window contacts, motion sensors, and glass-break detectors, but are not so limited. The security panel 2211 may also manage wired security system components 2214 physically connected to the security panel 2211 with an RS232, a conventional DC or AC circuit for contacts, or RS485 or Ethernet connection or similar such wired interface.
In an embodiment, Gateway 2220 provides the interface between security system 2210 and LAN and/or WAN for purposes of remote control, monitoring, and management. Gateway 2220 communicates with an external web server 2240, database 2250, and application server 2260 over network 2230 (which may comprise WAN, LAN, cellular or a combination thereof). In this example, application logic, remote user interface functionality, as well as user state and account information is managed by the combination of these remote servers. Gateway 2220 includes server connection manager 2221, a software interface module responsible for all server communication over network 2230 (including cellular and/or IP WAN connectivity). While the Gateway 2220 of an embodiment is a managed device managed by the remote servers, the Gateway of an alternative embodiment is invisible to the remote servers and serves as nothing more than a pass-through for data and communications.
The Device Manager 2224 of Gateway 2220 processes events and control messages exchanged with the security system 2210 using the SPIM 2230. Device Manager 2224 relies upon SPIM 2230 which receives and stores the proprietary or standards-based protocols used to support the security system 2210. SPIM 2230 further uses the comprehensive protocols and interface algorithms for a plurality of security systems 2210 stored in the security panel client database associated with security panel protocol manager 2226. These various components implement the software logic and protocols necessary to communicate with and manage the security system 2210 as well as other remote devices. The SPIM 2230 is used as an intermediary between Gateway 2220 and Security System 2210 for all security interfaces. In this example, RF Link 2270 represents the 802.11n (WiFi) RF communication link, enabling gateway 2220 to monitor and control security panel 2211 and associated wireless and wired devices 2214, but is not so limited.
In addition to communicating with Security System 2210 and with security system components, Gateway 2220 communicates with other remote devices at the premises. Gateway 2220 includes Wireless Transceiver hardware modules 2225 that are used to implement the physical RF communications links to remote devices.
Regarding communications with the security system 2210, the server connection manager 2221 of Gateway 2220 of an embodiment requests and receives a set of wireless protocols for a specific security system 2210 (an example being that of the GE Security Concord panel and sensors) and stores the protocols in the database portion of the wireless protocol manager 2226. The WiFi access point manager 2223 then uses the protocols from wireless protocol manager 2226 to initiate the sequence of processes described herein for learning gateway 2220 into security system 2210 as an authorized control device. Once learned in, event manager 222 (described with reference to FIG. 4) processes all events and messages detected by the combination of the WiFi access point manager 2223 and the wireless transceiver module 2225 of Gateway 2220.
Gateway 2220 of an embodiment comprises one or more wireless transceivers 2225 and associated protocols managed by wireless protocol manager 2226. In this embodiment, events and control of multiple heterogeneous devices may be coordinated with security panel 2211, wireless devices 2213, and wired devices 2214. For example, a wireless sensor from one manufacturer may be utilized to control a device using a different protocol from a different manufacturer.
The SPIM 2230 of an embodiment includes a cellular interface 2234. The cellular interface 2234 enables the SPIM 2230 to communicate via a remote cellular network to remote cellular-enabled systems. For example, the cellular interface 2234 enables the SPIM 2230 to communicate directly with the external central monitoring station (CMS), and/or to communicate directly with the Application Server 2260, without requiring a separate Gateway device.
The SPIM 2230 of an embodiment includes an alarm interface 2235. The alarm interface 2235 receives an alarm report directly from Security System 2210. Under this embodiment, the Wire Interface 2280 between the SPIM 2230 and the Security System 2210 includes a connection to one of the security panel bus 2213 or the phone line RJ11 connection used for POTS alarm transmission. The alarm interface 2235 then forwards the report to one or more of the CMS, Application Server 2260, or another off-site server designated by the service provider. The alarm interface 2235 of an embodiment sends the alarm report to an off-site system or server via the Gateway 2220. Alternatively, the alarm interface 2235 sends the alarm report to an off-site system or server directly using the cellular interface 2234.
As an alternative to receiving an alarm report from the security system 2210, the alarm interface 2235 receives security state data or information from the security system 2210. The alarm interface 2235 uses the security state information received from the security system via Wire Interface 2280 to generate an alarm report. The alarm interface 2235 forwards the report to one or more of the CMS, Application Server 2260, or another off-site server designated by the service provider. The alarm interface 2235 of an embodiment sends the alarm report to an off-site system or server via the Gateway 2220. Alternatively, the alarm interface 2235 sends the alarm report to an off-site system or server directly using the cellular interface 2234.
FIG. 3 is a flow diagram 30 for integrating or interfacing the external control and management system (SPIM) with the security panel of the legacy security system, under an embodiment. The SPIM 2230 interface with the proprietary bus of the security panel uses real-time bus interface 2231 and bus protocol 2232, which may be downloaded dynamically from Gateway 2220 or Application Server 2260. The system of an embodiment is installed by connecting the SPIM device to the bus-level or other proprietary interface of the security panel 3110.
When initially powered on, the SPIM may be enrolled in the security panel as a known type of device or devices (e.g. as a keypad or an ‘automation module’). The Gateway and/or touchscreen device, also referred to herein as the iHub, is placed in an operational state 3111, from which the Gateway initiates 3112 a software and RF sequence to locate, enroll, and interface to the SPIM device. The SPIM may be enrolled with the Gateway device using conventional WiFi enrollment procedures, including WPS, web-based SSID/password entry, or automatic MAC address discovery and SPIM configuration by the Gateway, to name a few.
The SPIM begins monitoring information on the security panel bus and communications with the Gateway over the WiFi RF link 3113. For the security system, the SPIM monitors for a state change in the security panel (e.g., an alarm condition, sensor fault (e.g., door open, etc.), etc.) 3120 or other data of the security system. For the Gateway, the SPIM listens for a Gateway request (e.g., ‘Arm Panel’, ‘Get Zone Names’, etc.) 3122 directed to the security system. If neither the security panel nor Gateway need or provide information, the SPIM continues monitoring operations 3113.
In the event that a security panel state change is detected 3120, then the SPIM processes the state change information 3121 as described in detail herein, and forwards the new state information to the Gateway over the Wifi RF link 3124. In the event that the SPIM receives from the Gateway a command or request for data from the security panel, the SPIM receives this request 3123 and formulates a command sequence on the security panel bus 3125. The formulation is followed by an implementation of the command in the native bus protocol 3126 and involves details described herein.
In an embodiment, the Gateway is an embedded computer with an IP LAN and WAN connection and a plurality of RF transceivers and software protocol modules capable of communicating with a plurality of security systems each with a potentially different RF and software protocol interface. The SPIM can then be a WiFi device, IP LAN wired device, or an RF device using a different protocol such as Z-Wave or Zigbee, for example, so that the use of the WiFi-to-serial encapsulation can be generalized for use with other serial interfaces like Z-Wave, Zigbee and other home management devices. Consequently, regardless of the particular device involved in a system, the WiFi-to-serial encapsulation enables moving of the serial device drivers to other locations in a network (near the device or radio) to separate them from the WiFi management device or access point. For example, the software running on a system controller is too far from a smart meter to use a local serial adapter (e.g. USB dongle radio) to connect via Zigbee, so the Zigbee dongle is plugged into a different device that has a WiFi or TCP connection (like a home router or iHub panel) and the encapsulation allows that device to appear like a local serial device for application purposes.
While an illustrative embodiment of a system consistent with the systems and methods described herein is described in detail, one of skill in the art will understand that modifications to this architecture may be made without departing from the scope of the embodiments described herein. For example, the functionality described herein may be allocated differently between client and server, or amongst different server components. Likewise, the entire functionality of the SPIM 2230 described herein could be integrated completely within an existing security system 2210. In such an embodiment, the Gateway 2220 could be directly integrated with a security system 2210 in a manner consistent with currently described embodiments herein.
As described herein, the wireless-to-serial encapsulation of an embodiment uses a WiFi coupling or connection. While a security panel or SPIM can incorporate or include a WiFi client directly into the security panel or SPIM, embodiments described herein provide a SPIM implemented as a “WiFi SPIM” (WiSPIM) for interfacing to conventional security systems. The WiSPIM is a WiFi interface module that is separate from the panel or SPIM, and enables communication between a conventional security panel or SPIM and the iHub.
More particularly, the WiSPIM of an embodiment communicates with the security panel or SPIM using the existing serial line, and communicates with the iHub (Gateway and/or Touchscreen) via a WiFi coupling or connection so that no changes are necessary to the legacy security panels or SPIMs. The WiSPIM provides transparent serial-to-WiFi bridging between the iHub and legacy security equipment, and includes wireless security using, for example, WPA2 Personal, and optional addition of application-level encryption via SSL/TLS.
The WiSPIM of an embodiment includes provisioning such that the WiSPIMs WiFi credentials (e.g., authentication keys/passwords, IP address, configuration, settings, etc.) are obtained from the iHub via the WiFi coupling. Furthermore, the WiSPIM includes management functionality in which the WiSPIM configuration and status (including WiFi signal strength, settings, noise, error rates, statistics, etc.) are available to the iHub via WiFi. Alternatively, the provisioning and accessibility of configuration and status information of the WiSPIM are accessed using the security panel (e.g., keypad-based menus, etc.). The WiSPIM also supports over-the-air WiSPIM firmware upgrades.
The WiSPIM receives power from the security panel/SPIM, power adaptor, and/or battery, but is not so limited. The WiSPIM of an embodiment includes a low-power mode that functions to provide an optional WiSPIM sleep/power-off upon panel AC-power failure, with or without delay.
The WiSPIM of an embodiment includes an optional polling proxy that supports off-loading of panel/SPIM polling to the WiSPIM. The optional polling proxy is included or used, for example, when the communication protocol used by the remote system-to-SPIM or remote system-to-legacy system is such that polling over the WiFi link is very inefficient, or error prone, or there are tight timing constraints that cannot be efficiently met on a WiFi link. Security panels and SPIMs from various manufacturers present the iHub with different interface protocols, APIs, and methods of message exchange. Interfaces that are asynchronous in nature (where the panel/SPIM sends iHub messages-of-interest without any queries or prompting) are well suited to running over long-delay networks (e.g., Internet, cellular) or local shared-media networks (e.g., WiFi, Ethernet). However, security panel/SPIM interfaces that are synchronous in nature (where the iHub must continually query or prompt the security panel/SPIM for messages or data) can be inefficient when run over long-delay or shared-media networks. In such networks, a security panel/SPIM interface that requires polling can cause timing, resource utilization, and reliability problems. The WiSPIM realizes improved efficiency regarding these issues by off-loading the security panel/SPIM polling function that is currently performed by iHub daemons to the WiSPIM, a feature that is referred to herein as the WiSPIM “Polling Proxy.”
Depending upon the mechanics used by the security panel/SPIM for message exchange, the WiSPIM acts as one or more of an injection proxy, rewrite proxy, and/or full proxy, but is not limited to these functions. Each of these capabilities of the WiSPIM is described in detail herein.
In the roll of an injection proxy, the WiSPIM is a transparent pass-through for non-polling-related messages between the iHub and security panel/SPIM. However, for the polling activities, the polling proxy injects the required polling-related commands into the message stream that arrives from iHub via WiFi, and sends the modified message stream onwards to the security panel/SPIM over the serial line. Similarly, the polling proxy filters out any benign polling-related responses (that is, those messages that are not of interest to iHub) from the message stream received from the security panel/SPIM over the serial line, and forwards the modified stream onwards to the iHub via WiFi. The WiSPIM is able to act in this injection-proxy fashion when the polling-related messages do not contain a message sequence number that is managed by iHub.
Regarding the rewrite proxy, the WiSPIM provides functionality similar to that provided in its role as the injection proxy, except the polling proxy rewrites the sequence numbers of all messages that pass-through the WiSPIM. This additional process performed by the rewrite proxy when the security panel/SPIM interface protocols polling-related messages (that is, those messages generated-by or destined-for WiSPIM) include a sequence number that is shared with a sequence number in the non-polling-related messages (that is, those messages generated-by or destined-for iHub). In this case, the WiSPIM Polling Proxy manages separate sets of sequence numbers, so that the sequence count appears continuous to both the security panel/SPIM and iHub.
As a full proxy, the WiSPIM polling proxy may act as an intermediary between the iHub and security panel/SPIM, providing message processing, logic, protocol translation, message timing adjustments, and/or message buffering or queuing. In this full-proxy case, messages from the iHub and/or the security panel/SPIM are received by the WiSPIM, parsed, and then acted upon. For example, the WiSPIM may receive from the iHub a query of the full sensor-array state (i.e., a request to see the state of all the panel's sensors), and then the WiSPIM may send the security panel/SPIM individual queries on each of the sensors in the system. The WiSPIM then packages the results into a single sensor state array response to the iHub. As another example, the WiSPIM may receive a query from the iHub to see if there have been any user-account modifications since the last query. The WiSPIM polls the panel/SPIM for user-account data, compares the panel/SPIM responses to a WiSPIM cache of user-account data, and then reports back to the iHub if there were any changes in the data.
The WiSPIM polling proxy can be explicitly enabled by configuration parameters that are set by the iHub. Else, the WiSPIM polling proxy can be run in “auto-sense” mode, where the WiSPIM inspects the message traffic to-or-from the iHub, and determines the type of security panel/SPIM that is connected to the WiSPIM, and the need for the WiSPIM to perform polling on behalf of the iHub. In auto-sense mode, if the WiSPIM detects that the panel type requires polling, and the WiSPIM sees that the iHub is not performing the required polling, then the WiSPIM polling proxy is automatically enabled.
Once the polling proxy is enabled, the WiSPIM continuously polls the security panel/SPIM over the serial line interface, looking for panel/SPIM messages or data that is of interest to the iHub. When a security panel/SPIM message or data is found, the WiSPIM asynchronously sends the message or data to the iHub over a socket connection on the WiFi network.
The WiSPIM polling proxy can perform one or both of message polling and data polling. In performing message polling, some security panels and SPIMs present master/slave interfaces, where the iHub (master) must always query the panel/SPIM (slave) for new messages. The new messages themselves may be any of a variety of state changes (arms/disarms, sensor trips, etc.), mode changes (installer programming lead-out, entering walk-test mode, etc.), resource changes (sensors added, users deleted, etc.), responses to iHub commands (arm command was successful, sensor bypass attempt failure, etc), message management (command acknowledgement, command error, etc), or other panel/SPIM communication. As a message proxy, the WiSPIM polling proxy interacts with the security panel/SPIM, continuously providing the polling commands that prompt for new messages to be sent from the panel/SPIM.
For data polling, all security panels maintain internal state data (e.g., arm levels, outstanding alarms and trouble conditions, etc.) and resource data (e.g., collections of sensor, access-code, devices, etc.). However, changes to the state and/or resource data of the security panel/SPIM may not be asynchronously sent to the iHub. In such a case, to learn of state and/or resource changes, the iHub polls (that is, periodically queries) the security panel/SPIM. State and/or resource data is received by the iHub, the data is compared to a cache of the data from a previous query, and state and/or resource changes are inferred. Instead of the iHub performing the data polling activity, the WiSPIM polling proxy can perform this data polling instead.
The WiSPIM polling proxy maintains internal statistics (counts over a given period), including but not limited to polls performed, commands received from the iHub, messages/data of interest forwarded to the iHub, errors encountered, message retries needed, etc. These statistics are available to the iHub in-band with the security panel/SPIM message stream, or out-of-band on a management socket connection.
The WiSPIM polling proxy maintains internal configuration parameters, including but not limited to enable/disable, auto-sense on/off, security panel and SPIM type, polling type and level, polling commands used, polling rate, statistic period, etc. These parameters may be configured by the iHub either in-band with the security panel/SPIM message stream, or out-of-band on a management socket connection.
The integrated security system service is delivered by hosted servers running software components that communicate with a variety of client types while interacting with other systems. FIG. 4 is a block diagram of components of the integrated security system 100, under an embodiment. Following is a more detailed description of the components.
With reference to FIG. 1 and FIG. 4 , the iConnect servers 104 support a diverse collection of clients 120 ranging from mobile devices, to PCs, to in-home security devices, to a service provider's internal systems. Most clients 120 are used by end-users, but there are also a number of clients 120 that are used to operate the service.
Clients 120 used by end-users of the integrated security system 100 include, but are not limited to, the following:
    • Clients based on gateway client applications 202 (e.g., a processor-based device running the gateway technology that manages home security and automation devices).
    • A web browser 204 accessing a Web Portal application, performing end-user configuration and customization of the integrated security system service as well as monitoring of in-home device status, viewing photos and video, etc. Device and user management can also be performed by this portal application.
    • A mobile device 206 (e.g., PDA, mobile phone, smartphone, etc.) accessing the integrated security system Mobile Portal. This type of client 206 is used by end-users to view system status and perform operations on devices (e.g., turning on a lamp, arming a security panel, etc.) rather than for system configuration tasks such as adding a new device or user.
    • PC, smartphone, or browser-based “widget” or ‘apps’ containers 208 that present integrated security system service content, as well as other third-party content, in simple, targeted ways (e.g. a widget that resides on a PC desktop and shows live video from a single in-home camera). “Widget” as used herein means applications or programs in the system.
    • Touchscreen home security keypads 208 and advanced in-home devices that present a variety of content widgets via an intuitive touchscreen user interface.
    • Notification recipients 210 (e.g., cell phones that receive SMS-based notifications when certain events occur (or don't occur), email clients that receive an email message with similar information, etc.).
    • Custom-built clients (not shown) that access the iConnect web services XML or REST API to interact with users' home security and self-monitoring information in new and unique ways. Such clients could include new types of mobile devices, native mobile applications, ‘hybrid mobile applications that combine native mobile device code with HTML4/5 interfaces and Javascript functionality, or complex applications where integrated security system content is integrated into a broader set of application features.
In addition to the end-user clients, the iConnect servers 104 support PC browser-based Service Management clients that manage the ongoing operation of the overall service. These clients run applications that handle tasks such as provisioning, service monitoring, customer support and reporting.
There are numerous types of server components of the iConnect servers 104 of an embodiment including, but not limited to, the following: Business Components which manage information about all of the home security and self-monitoring devices; End-User Application Components which display that information for users and access the Business Components via published XML APIs; and Service Management Application Components which enable operators to administer the service (these components also access the Business Components via the XML APIs, and also via published SNMP MIBs).
The server components provide access to, and management of, the objects associated with an integrated security system installation. The top-level object is the “network.” It is a location where a gateway 102 is located, and is also commonly referred to as a site or premises; the premises can include any type of structure (e.g., home, office, warehouse, etc.) at which a gateway 102 is located. Users can only access the networks to which they have been granted permission. Within a network, every object monitored by the gateway 102 is called a device. Devices include the sensors, cameras, home security panels and automation devices, as well as the controller or processor-based device running the gateway applications.
Various types of interactions are possible between the objects in a system. Automations define actions that occur as a result of a change in state of a device. For example, take a picture with the front entry camera when the front door sensor changes to “open”. Notifications are messages sent to users to indicate that something has occurred, such as the front door going to “open” state, or has not occurred (referred to as an iWatch notification). Schedules define changes in device states that are to take place at predefined days and times. For example, set the security panel to “Armed” mode every weeknight at 11:00 pm.
The iConnect Business Components are responsible for orchestrating all of the low-level service management activities for the integrated security system service. They define all of the users and devices associated with a network (site), analyze how the devices interact, and trigger associated actions (such as sending notifications to users). All changes in device states are monitored and logged. The Business Components also manage all interactions with external systems as required, including sending alarms and other related self-monitoring data to the home security Central Monitoring System (CMS) 199. The Business Components are implemented as portable Java J2EE Servlets, but are not so limited.
The following iConnect Business Components manage the main elements of the integrated security system service, but the embodiment is not so limited:
    • A Registry Manager 220 defines and manages users and networks. This component is responsible for the creation, modification and termination of users and networks. It is also where a user's access to networks is defined.
    • A Network Manager 222 defines and manages security and self-monitoring devices that are deployed on a network (site). This component handles the creation, modification, deletion and configuration of the devices, as well as the creation of automations, schedules and notification rules associated with those devices.
    • A Data Manager 224 manages access to current and logged state data for an existing network and its devices. This component specifically does not provide any access to network management capabilities, such as adding new devices to a network, which are handled exclusively by the Network Manager 222.
    • To achieve optimal performance for all types of queries, data for current device states is stored separately from historical state data (a.k.a. “logs”) in the database. A Log Data Manager 226 performs ongoing transfers of current device state data to the historical data log tables.
Additional iConnect Business Components handle direct communications with certain clients and other systems, for example:
    • An iHub Manager 228 directly manages all communications with gateway clients, including receiving information about device state changes, changing the configuration of devices, and pushing new versions of the gateway client to the hardware it is running on.
    • A Notification Manager 230 is responsible for sending all notifications to clients via SMS (mobile phone messages), email (via a relay server like an SMTP email server), etc.
    • An Alarm and CMS Manager 232 sends critical server-generated alarm events to the home security Central Monitoring Station (CMS) and manages all other communications of integrated security system service data to and from the CMS.
    • The Element Management System (EMS) 234 is an iControl Business Component that manages all activities associated with service installation, scaling and monitoring, and filters and packages service operations data for use by service management applications. The SNMP MIBs published by the EMS can also be incorporated into any third party monitoring system if desired.
The iConnect Business Components store information about the objects that they manage in the iControl Service Database 240 and in the iControl Content Store 242. The iControl Content Store is used to store media objects like video, photos and widget content, while the Service Database stores information about users, networks, and devices. Database interaction is performed via a JDBC interface. For security purposes, the Business Components manage all data storage and retrieval.
The iControl Business Components provide web services-based APIs that application components use to access the Business Components' capabilities. Functions of application components include presenting integrated security system service data to end-users, performing administrative duties, and integrating with external systems and back-office applications.
The primary published APIs for the iConnect Business Components include, but are not limited to, the following:
    • A Registry Manager API 252 provides access to the Registry Manager Business Component's functionality, allowing management of networks and users.
    • A Network Manager API 254 provides access to the Network Manager Business Component's functionality, allowing management of devices on a network.
    • A Data Manager API 256 provides access to the Data Manager Business Component's functionality, such as setting and retrieving (current and historical) data about device states.
    • A Provisioning API 258 provides a simple way to create new networks and configure initial default properties.
Each API of an embodiment includes three modes of access that include Java API, REST API, or XML API, but the embodiment is not so limited. The XML APIs are published as web services so that they can be easily accessed by applications or servers over a network. The Java APIs are a programmer-friendly wrapper for the XML APIs. The REST APIs are accessible through Javascriptor Java and provide an extremely flexibile approach to building user interfaces or new application components. Application components and integrations written in Java should generally use the Java APIs rather than the XML APIs directly.
The iConnect Business Components also have an XML-based interface 260 for quickly adding support for new devices to the integrated security system. This interface 260, referred to as DeviceConnect 260, is a flexible, standards-based mechanism for defining the properties of new devices and how they can be managed. Although the format is flexible enough to allow the addition of any type of future device, pre-defined XML profiles are currently available for adding common types of devices such as sensors (SensorConnect), home security panels (PanelConnect) and IP cameras (CameraConnect).
The iConnect End-User Application Components deliver the user interfaces that run on the different types of clients supported by the integrated security system service. The components are written in portable Java J2EE technology (e.g., as Java Servlets, as JavaServer Pages (JSPs), etc.) and they all interact with the iControl Business Components via the published APIs.
The following End-User Application Components generate CSS-based HTML/JavaScript that is displayed on the target client. These applications can be dynamically branded with partner-specific logos and URL links (such as Customer Support, etc.). The End-User Application Components of an embodiment include, but are not limited to, the following:
    • An iControl Activation Application 270 that delivers the first application that a user sees when they set up the integrated security system service. This wizard-based web browser application securely associates a new user with a purchased gateway and the other devices included with it as a kit (if any). It primarily uses functionality published by the Provisioning API.
    • An iControl Web Portal Application 272 runs on PC browsers and delivers the web-based interface to the integrated security system service. This application allows users to manage their networks (e.g. add devices and create automations) as well as to view/change device states, and manage pictures and videos. Because of the wide scope of capabilities of this application, it uses three different Business Component APIs that include the Registry Manager API, Network Manager API, and Data Manager API, but the embodiment is not so limited.
    • An iControl Mobile Portal 274 is a small-footprint web-based interface that runs on mobile phones and PDAs, as well as a hybrid web and native code module for smartphones. This interface is optimized for remote viewing of device states and pictures/videos rather than network management. As such, its interaction with the Business Components is primarily via the Data Manager API. Mobile applications typically utilize the REST API framework for management and presentation of system information.
    • Custom portals and targeted client applications can be provided that leverage the same Business Component APIs used by the above applications.
    • A Content Manager Application Component 276 delivers content to a variety of clients. It sends multimedia-rich user interface components to widget container clients (both PC and browser-based), as well as to advanced touchscreen keypad clients. In addition to providing content directly to end-user devices, the Content Manager 276 provides widget-based user interface components to satisfy requests from other Application Components such as the iControl Web 272 and Mobile 274 portals.
A number of Application Components are responsible for overall management of the service. These pre-defined applications, referred to as Service Management Application Components, are configured to offer off-the-shelf solutions for production management of the integrated security system service including provisioning, overall service monitoring, customer support, and reporting, for example. The Service Management Application Components of an embodiment include, but are not limited to, the following:
    • A Service Management Application 280 allows service administrators to perform activities associated with service installation, scaling and monitoring/alerting. This application interacts heavily with the Element Management System (EMS) Business Component to execute its functionality, and also retrieves its monitoring data from that component via protocols such as SNMP MIBs.
    • A Kitting Application 282 is used by employees performing service provisioning tasks. This application allows home security and self-monitoring devices to be associated with gateways during the warehouse kitting process.
    • A CSR Application and Report Generator 284 is used by personnel supporting the integrated security system service, such as CSRs resolving end-user issues and employees enquiring about overall service usage. Pushes of new gateway firmware to deployed gateways is also managed by this application.
The iConnect servers 104 also support custom-built integrations with a service provider's existing OSS/BSS, CSR and service delivery systems 290. Such systems can access the iConnect web services XML API to transfer data to and from the iConnect servers 104. These types of integrations can compliment or replace the PC browser-based Service Management applications, depending on service provider needs.
As described above, the integrated security system of an embodiment includes a gateway, or iHub. The gateway of an embodiment includes a device that is deployed in the home or business and couples or connects the various third-party cameras, home security panels, sensors and devices to the iConnect server over a WAN connection as described in detail herein. The gateway couples to the home network and/or a cellular network and communicates directly with the home security panel in both wired and wireless sensor installations. The gateway is configured to be low-cost, reliable and thin so that it complements the integrated security system network-based architecture.
The gateway supports various wireless protocols and can interconnect with a wide range of home security control panels. Service providers and users can then extend the system's capabilities by adding IP cameras, lighting modules and additional security devices. The gateway is configurable to be integrated into many consumer appliances, including set-top boxes, routers and security panels. The small and efficient footprint of the gateway enables this portability and versatility, thereby simplifying and reducing the overall cost of the deployment.
FIG. 5 is a block diagram of the gateway 102 including gateway software or applications, under an embodiment. The gateway software architecture is relatively thin and efficient, thereby simplifying its integration into other consumer appliances such as set-top boxes, routers, touch screens and security panels. The software architecture also provides a high degree of security against unauthorized access. This section describes the various key components of the gateway software architecture.
The gateway application layer 302 is the main program that orchestrates the operations performed by the gateway. The Security Engine 304 provides robust protection against intentional and unintentional intrusion into the integrated security system network from the outside world (both from inside the premises as well as from the WAN). The Security Engine 304 of an embodiment comprises one or more sub-modules or components that perform functions including, but not limited to, the following:
    • Encryption including 128-bit SSL encryption for gateway and iConnect server communication to protect user data privacy and provide secure communication.
    • Bi-directional authentication between the gateway and iConnect server in order to prevent unauthorized spoofing and attacks. Data sent from the iConnect server to the gateway application (or vice versa) is digitally signed as an additional layer of security. Digital signing provides both authentication and validation that the data has not been altered in transit.
    • Camera SSL encapsulation because picture and video traffic offered by off-the-shelf networked IP cameras is not secure when traveling over the Internet. The gateway provides for 128-bit SSL encapsulation of the user picture and video data sent over the internet for complete user security and privacy.
    • 802.11b/g/n with WPA-2 security to ensure that wireless camera communications always takes place using the strongest available protection.
    • A gateway-enabled device is assigned a unique activation key for activation with an iConnect server. This ensures that only valid gateway-enabled devices can be activated for use with the specific instance of iConnect server in use. Attempts to activate gateway-enabled devices by brute force are detected by the Security Engine. Partners deploying gateway-enabled devices have the knowledge that only a gateway with the correct serial number and activation key can be activated for use with an iConnect server. Stolen devices, devices attempting to masquerade as gateway-enabled devices, and malicious outsiders (or insiders as knowledgeable but nefarious customers) cannot effect other customers' gateway-enabled devices.
As standards evolve, and new encryption and authentication methods are proven to be useful, and older mechanisms proven to be breakable, the security manager can be upgraded “over the air” to provide new and better security for communications between the iConnect server and the gateway application, and locally at the premises to remove any risk of eavesdropping on camera communications.
A Remote Firmware Download module 306 allows for seamless and secure updates to the gateway firmware through the iControl Maintenance Application on the server 104, providing a transparent, hassle-free mechanism for the service provider to deploy new features and bug fixes to the installed user base. The firmware download mechanism is tolerant of connection loss, power interruption and user interventions (both intentional and unintentional). Such robustness reduces down time and customer support issues. Gateway firmware can be remotely download either for one gateway at a time, a group of gateways, or in batches.
The Automations engine 308 manages the user-defined rules of interaction between the different devices (e.g. when door opens turn on the light). Though the automation rules are programmed and reside at the portal/server level, they are cached at the gateway level in order to provide short latency between device triggers and actions.
DeviceConnect 310 includes definitions of all supported devices (e.g., cameras, security panels, sensors, etc.) using a standardized plug-in architecture. The DeviceConnect module 310 offers an interface that can be used to quickly add support for any new device as well as enabling interoperability between devices that use different technologies/protocols. For common device types, pre-defined sub-modules have been defined, making supporting new devices of these types even easier. SensorConnect 312 is provided for adding new sensors, CameraConnect 316 for adding IP cameras, and PanelConnect 314 for adding home security panels.
The Schedules engine 318 is responsible for executing the user defined schedules (e.g., take a picture every five minutes; every day at 8 am set temperature to 65 degrees Fahrenheit, etc.). Though the schedules are programmed and reside at the iConnect server level they are sent to the scheduler within the gateway application. The Schedules Engine 318 then interfaces with SensorConnect 312 to ensure that scheduled events occur at precisely the desired time.
The Device Management module 320 is in charge of all discovery, installation and configuration of both wired and wireless IP devices (e.g., cameras, etc.) coupled or connected to the system. Networked IP devices, such as those used in the integrated security system, require user configuration of many IP and security parameters—to simplify the user experience and reduce the customer support burden, the device management module of an embodiment handles the details of this configuration. The device management module also manages the video routing module described below.
The video routing engine 322 is responsible for delivering seamless video streams to the user with zero-configuration. Through a multi-step, staged approach the video routing engine uses a combination of UPnP port-forwarding, relay server routing and STUN/TURN peer-to-peer routing.
FIG. 6 is a block diagram of components of the gateway 102, under an embodiment. Depending on the specific set of functionality desired by the service provider deploying the integrated security system service, the gateway 102 can use any of a number of processors 402, due to the small footprint of the gateway application firmware. In an embodiment, the gateway could include the Broadcom BCM5354 as the processor for example. In addition, the gateway 102 includes memory (e.g., FLASH 404, RAM 406, etc.) and any number of input/output (I/O) ports 408.
Referring to the WAN portion 410 of the gateway 102, the gateway 102 of an embodiment can communicate with the iConnect server using a number of communication types and/or protocols, for example Broadband 412, GPRS (or any cellular network such as 3G, LTE, etc.) 414 and/or Public Switched Telephone Network (PTSN) 416 to name a few. In general, broadband communication 412 is the primary means of connection between the gateway 102 and the iConnect server 104 and the GPRS/CDMA/3G 414 and/or PSTN 416 interfaces acts as back-up for fault tolerance in case the user's broadband connection fails for whatever reason, but the embodiment is not so limited. In an embodiment cellular communications is the primary means of communications between the Gateway and the servers and CMS, but is not so limited.
Referring to the LAN portion 420 of the gateway 102, various protocols and physical transceivers can be used to communicate to off-the-shelf sensors and cameras. The gateway 102 is protocol-agnostic and technology-agnostic and as such can easily support almost any device networking protocol. The gateway 102 can, for example, support GE and Honeywell security RF protocols 422, Z-Wave 424, serial (RS232 and RS485) 426 for direct connection to security panels as well as WiFi 428 (802.11b/g) for communication to WiFi cameras.
The integrated security system includes couplings or connections among a variety of IP devices or components, and the device management module is in charge of the discovery, installation and configuration of the IP devices coupled or connected to the system, as described above. The integrated security system of an embodiment uses a “sandbox” network to discover and manage all IP devices coupled or connected as components of the system. The IP devices of an embodiment include wired devices, wireless devices, cameras, interactive touchscreens, and security panels to name a few. These devices can be wired via ethernet cable or Wifi devices, all of which are secured within the sandbox network, as described below. The “sandbox” network is described in detail below.
FIG. 7 is a block diagram 500 of network or premise device integration with a premise network 250, under an embodiment. In an embodiment, network devices 255-257 are coupled to the gateway 102 using a secure network coupling or connection such as SSL over an encrypted 802.11 link (utilizing for example WPA-2 security for the wireless encryption) or Z-Wave/Zigbee RF communications. The network coupling or connection between the gateway 102 and the network devices 255-257 is a private coupling or connection in that it is segregated from any other network couplings or connections. The gateway 102 is coupled to the premise router/firewall 252 via a coupling with a premise LAN 250. The premise router/firewall 252 is coupled to a broadband modem 251, and the broadband modem 251 is coupled to a WAN 200 or other network outside the premise. The gateway 102 thus enables or forms a separate wireless network, or sub-network, that includes some number of devices and is coupled or connected to the LAN 250 of the host premises. The gateway sub-network can include, but is not limited to, any number of other devices like WiFi IP cameras, security panels (e.g., IP-enabled), thermostats, lighting device, locks, and security touchscreens, to name a few. The gateway 102 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250/WAN 200, but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the gateway 102.
FIG. 8 is a block diagram 600 of network or premise device integration with a premise network 250, under an alternative embodiment. The network or premise devices 255-257 are coupled to the gateway 102. The network coupling or connection between the gateway 102 and the network devices 255-257 is a private coupling or connection in that it is segregated from any other network couplings or connections. The gateway 102 is coupled or connected between the premise router/firewall 252 and the broadband modem 251. The broadband modem 251 is coupled to a WAN 200 or other network outside the premise, while the premise router/firewall 252 is coupled to a premise LAN 250. As a result of its location between the broadband modem 251 and the premise router/firewall 252, the gateway 102 can be configured or function as the premise router routing specified data between the outside network (e.g., WAN 200) and the premise router/firewall 252 of the LAN 250. As described above, the gateway 102 in this configuration enables or forms a separate wireless network, or sub-network, that includes the network or premise devices 255-257 and is coupled or connected between the LAN 250 of the host premises and the WAN 200. The gateway sub-network can include, but is not limited to, any number of network or premise devices 255-257 like WiFi IP cameras, security panels (e.g., IP-enabled), and security touchscreens, to name a few. The gateway 102 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250/WAN 200, but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the gateway 102.
The examples described above with reference to FIGS. 7 and 8 are presented only as examples of IP device integration. The integrated security system is not limited to the type, number and/or combination of IP devices shown and described in these examples, and any type, number and/or combination of IP devices is contemplated within the scope of this disclosure as capable of being integrated with the premise network.
The integrated security system of an embodiment includes a touchscreen (also referred to as the iControl touchscreen or integrated security system touchscreen), as described above, which provides core security keypad functionality, content management and presentation, and embedded systems design. The networked security touchscreen system of an embodiment enables a consumer or security provider to easily and automatically install, configure and manage the security system and touchscreen located at a customer premise. Using this system the customer may access and control the local security system, local IP devices such as cameras, local sensors and control devices (such as lighting controls or pipe freeze sensors), as well as the local security system panel and associated security sensors (such as door/window, motion, and smoke detectors). The customer premise may be a home, business, and/or other location equipped with a wired or wireless broadband IP connection.
The system of an embodiment includes a touchscreen with a configurable software user interface and/or a gateway device (e.g., iHub) that couples or connects to a premise security panel through a wired or wireless connection, and a remote server that provides access to content and information from the premises devices to a user when they are remote from the home. The touchscreen supports broadband and/or WAN wireless connectivity. In this embodiment, the touchscreen incorporates an IP broadband connection (e.g., Wifi radio, Ethernet port, etc.), and/or a cellular radio (e.g., GPRS/GSM, CDMA, WiMax, etc.). The touchscreen described herein can be used as one or more of a security system interface panel and a network user interface (UI) that provides an interface to interact with a network (e.g., LAN, WAN, internet, etc.).
The touchscreen of an embodiment provides an integrated touchscreen and security panel as an all-in-one device. Once integrated using the touchscreen, the touchscreen and a security panel of a premise security system become physically co-located in one device, and the functionality of both may even be co-resident on the same CPU and memory (though this is not required).
The touchscreen of an embodiment also provides an integrated IP video and touchscreen UI. As such, the touchscreen supports one or more standard video CODECs/players (e.g., H.264, Flash Video, MOV, MPEG4, M-JPEG, etc.). The touchscreen UI then provides a mechanism (such as a camera or video widget) to play video. In an embodiment the video is streamed live from an IP video camera. In other embodiments the video comprises video clips or photos sent from an IP camera or from a remote location.
The touchscreen of an embodiment provides a configurable user interface system that includes a configuration supporting use as a security touchscreen. In this embodiment, the touchscreen utilizes a modular user interface that allows components to be modified easily by a service provider, an installer, or even the end user. Examples of such a modular approach include using Flash widgets, HTML-based widgets, or other downloadable code modules such that the user interface of the touchscreen can be updated and modified while the application is running. In an embodiment the touchscreen user interface modules can be downloaded over the Internet. For example, a new security configuration widget can be downloaded from a standard web server, and the touchscreen then loads such configuration app into memory, and inserts it in place of the old security configuration widget. The touchscreen of an embodiment is configured to provide a self-install user interface.
Embodiments of the networked security touchscreen system described herein include a touchscreen device with a user interface that includes a security toolbar providing one or more functions including arm, disarm, panic, medic, and alert. The touchscreen therefore includes at least one screen having a separate region of the screen dedicated to a security toolbar. The security toolbar of an embodiment is present in the dedicated region at all times that the screen is active.
The touchscreen of an embodiment includes a home screen having a separate region of the screen allocated to managing home-based functions. The home-based functions of an embodiment include managing, viewing, and/or controlling IP video cameras. In this embodiment, regions of the home screen are allocated in the form of widget icons; these widget icons (e.g. for cameras, thermostats, lighting, etc) provide functionality for managing home systems. So, for example, a displayed camera icon, when selected, launches a Camera Widget, and the Camera widget in turn provides access to video from one or more cameras, as well as providing the user with relevant camera controls (take a picture, focus the camera, etc.)
The touchscreen of an embodiment includes a home screen having a separate region of the screen allocated to managing, viewing, and/or controlling internet-based content or applications. For example, the Widget Manager UI presents a region of the home screen (up to and including the entire home screen) where internet widgets icons such as weather, sports, etc. may be accessed). Each of these icons may be selected to launch their respective content services.
The touchscreen of an embodiment is integrated into a premise network using the gateway, as described above. The gateway as described herein functions to enable a separate wireless network, or sub-network, that is coupled, connected, or integrated with another network (e.g., WAN, LAN of the host premises, etc.). The sub-network enabled by the gateway optimizes the installation process for IP devices, like the touchscreen, that couple or connect to the sub-network by segregating these IP devices from other such devices on the network. This segregation of the IP devices of the sub-network further enables separate security and privacy policies to be implemented for these IP devices so that, where the IP devices are dedicated to specific functions (e.g., security), the security and privacy policies can be tailored specifically for the specific functions. Furthermore, the gateway and the sub-network it forms enables the segregation of data traffic, resulting in faster and more efficient data flow between components of the host network, components of the sub-network, and between components of the sub-network and components of the network.
The touchscreen of an embodiment includes a core functional embedded system that includes an embedded operating system, required hardware drivers, and an open system interface to name a few. The core functional embedded system can be provided by or as a component of a conventional security system (e.g., security system available from GE Security). These core functional units are used with components of the integrated security system as described herein. Note that portions of the touchscreen description below may include reference to a host premise security system (e.g., GE security system), but these references are included only as an example and do not limit the touchscreen to integration with any particular security system.
As an example, regarding the core functional embedded system, a reduced memory footprint version of embedded Linux forms the core operating system in an embodiment, and provides basic TCP/IP stack and memory management functions, along with a basic set of low-level graphics primitives. A set of device drivers is also provided or included that offer low-level hardware and network interfaces. In addition to the standard drivers, an interface to the RS 485 bus is included that couples or connects to the security system panel (e.g., GE Concord panel). The interface may, for example, implement the Superbus 2000 protocol, which can then be utilized by the more comprehensive transaction-level security functions implemented in PanelConnect technology (e.g SetAlarmLevel (int level, int partition, char*accessCode)). Power control drivers are also provided.
FIG. 9 is a block diagram of a touchscreen 700 of the integrated security system, under an embodiment. The touchscreen 700 generally includes an application/presentation layer 702 with a resident application 704, and a core engine 706. The touchscreen 700 also includes one or more of the following, but is not so limited: applications of premium services 710, widgets 712, a caching proxy 714, network security 716, network interface 718, security object 720, applications supporting devices 722, PanelConnect API 724, a gateway interface 726, and one or more ports 728.
More specifically, the touchscreen, when configured as a home security device, includes but is not limited to the following application or software modules: RS 485 and/or RS-232 bus security protocols to conventional home security system panel (e.g., GE Concord panel); functional home security classes and interfaces (e.g. Panel ARM state, Sensor status, etc.); Application/Presentation layer or engine; Resident Application; Consumer Home Security Application; installer home security application; core engine; and System bootloader/Software Updater. The core Application engine and system bootloader can also be used to support other advanced content and applications. This provides a seamless interaction between the premise security application and other optional services such as weather widgets or IP cameras.
An alternative configuration of the touchscreen includes a first Application engine for premise security and a second Application engine for all other applications. The integrated security system application engine supports content standards such as HTML, XML, Flash, etc. and enables a rich consumer experience for all ‘widgets’, whether security-based or not. The touchscreen thus provides service providers the ability to use web content creation and management tools to build and download any ‘widgets’ regardless of their functionality.
As discussed above, although the Security Applications have specific low-level functional requirements in order to interface with the premise security system, these applications make use of the same fundamental application facilities as any other ‘widget’, application facilities that include graphical layout, interactivity, application handoff, screen management, and network interfaces, to name a few.
Content management in the touchscreen provides the ability to leverage conventional web development tools, performance optimized for an embedded system, service provider control of accessible content, content reliability in a consumer device, and consistency between ‘widgets’ and seamless widget operational environment. In an embodiment of the integrated security system, widgets are created by web developers and hosted on the integrated security system Content Manager (and stored in the Content Store database). In this embodiment the server component caches the widgets and offers them to consumers through the web-based integrated security system provisioning system. The servers interact with the advanced touchscreen using HTTPS interfaces controlled by the core engine and dynamically download widgets and updates as needed to be cached on the touchscreen. In other embodiments widgets can be accessed directly over a network such as the Internet without needing to go through the iControl Content Manager
Referring to FIG. 9 , the touchscreen system is built on a tiered architecture, with defined interfaces between the Application/Presentation Layer (the Application Engine) on the top, the Core Engine in the middle, and the security panel and gateway APIs at the lower level. The architecture is configured to provide maximum flexibility and ease of maintenance.
The application engine of the touchscreen provides the presentation and interactivity capabilities for all applications (widgets) that run on the touchscreen, including both core security function widgets and third party content widgets. FIG. 10 is an example screenshot 800 of a networked security touchscreen, under an embodiment. This example screenshot 800 includes three interfaces or user interface (UI) components 802-806, but is not so limited. A first UI 802 of the touchscreen includes icons by which a user controls or accesses functions and/or components of the security system (e.g., “Main”, “Panic”, “Medic”, “Fire”, state of the premise alarm system (e.g., disarmed, armed, etc.), etc.); the first UI 802, which is also referred to herein as a security interface, is always presented on the touchscreen. A second UI 804 of the touchscreen includes icons by which a user selects or interacts with services and other network content (e.g., clock, calendar, weather, stocks, news, sports, photos, maps, music, etc.) that is accessible via the touchscreen. The second UI 804 is also referred to herein as a network interface or content interface. A third UI 806 of the touchscreen includes icons by which a user selects or interacts with additional services or components (e.g., intercom control, security, cameras coupled to the system in particular regions (e.g., front door, baby, etc.) available via the touchscreen.
A component of the application engine is the Presentation Engine, which includes a set of libraries that implement the standards-based widget content (e.g., XML, HTML, JavaScript, Flash) layout and interactivity. This engine provides the widget with interfaces to dynamically load both graphics and application logic from third parties, support high level data description language as well as standard graphic formats. The set of web content-based functionality available to a widget developer is extended by specific touchscreen functions implemented as local web services by the Core Engine.
The resident application of the touchscreen is the master service that controls the interaction of all widgets in the system, and enforces the business and security rules required by the service provider. For example, the resident application determines the priority of widgets, thereby enabling a home security widget to override resource requests from a less critical widget (e.g. a weather widget). The resident application also monitors widget behavior, and responds to client or server requests for cache updates.
The core engine of the touchscreen manages interaction with other components of the integrated security system, and provides an interface through which the resident application and authorized widgets can get information about the home security system, set alarms, install sensors, etc. At the lower level, the Core Engine's main interactions are through the PanelConnect API, which handles all communication with the security panel, and the gateway Interface, which handles communication with the gateway. In an embodiment, both the iHub Interface and PanelConnect API are resident and operating on the touchscreen. In another embodiment, the PanelConnect API runs on the gateway or other device that provides security system interaction and is accessed by the touchscreen through a web services interface.
The Core Engine also handles application and service level persistent and cached memory functions, as well as the dynamic provisioning of content and widgets, including but not limited to: flash memory management, local widget and content caching, widget version management (download, cache flush new/old content versions), as well as the caching and synchronization of user preferences. As a portion of these services the Core engine incorporates the bootloader functionality that is responsible for maintaining a consistent software image on the touchscreen, and acts as the client agent for all software updates. The bootloader is configured to ensure full update redundancy so that unsuccessful downloads cannot corrupt the integrated security system.
Video management is provided as a set of web services by the Core Engine. Video management includes the retrieval and playback of local video feeds as well as remote control and management of cameras (all through iControl CameraConnect technology).
Both the high level application layer and the mid-level core engine of the touchscreen can make calls to the network. Any call to the network made by the application layer is automatically handed off to a local caching proxy, which determines whether the request should be handled locally. Many of the requests from the application layer are web services API requests; although such requests could be satisfied by the iControl servers, they are handled directly by the touchscreen and the gateway. Requests that get through the caching proxy are checked against a white list of acceptable sites, and, if they match, are sent off through the network interface to the gateway. Included in the Network Subsystem is a set of network services including HTTP, HTTPS, and server-level authentication functions to manage the secure client-server interface. Storage and management of certificates is incorporated as a part of the network services layer.
Server components of the integrated security system servers support interactive content services on the touchscreen. These server components include, but are not limited to the content manager, registry manager, network manager, and global registry, each of which is described herein.
The Content Manager oversees aspects of handling widget data and raw content on the touchscreen. Once created and validated by the service provider, widgets are ‘ingested’ to the Content Manager, and then become available as downloadable services through the integrated security system Content Management APIs. The Content manager maintains versions and timestamp information, and connects to the raw data contained in the backend Content Store database. When a widget is updated (or new content becomes available) all clients registering interest in a widget are systematically updated as needed (a process that can be configured at an account, locale, or system-wide level).
The Registry Manager handles user data, and provisioning accounts, including information about widgets the user has decided to install, and the user preferences for these widgets.
The Network Manager handles getting and setting state for all devices on the integrated security system network (e.g., sensors, panels, cameras, etc.). The Network manager synchronizes with the gateway, the advanced touchscreen, and the subscriber database.
The Global Registry is a primary starting point server for all client services, and is a logical referral service that abstracts specific server locations/addresses from clients (touchscreen, gateway 102, desktop widgets, etc.). This approach enables easy scaling/migration of server farms.
The touchscreen of an embodiment operates wirelessly with a premise security system. The touchscreen of an embodiment incorporates an RF transceiver component that either communicates directly with the sensors and/or security panel over the panel's proprietary RF frequency, or the touchscreen communicates wirelessly to the gateway over 802.11, Ethernet, or other IP-based communications channel, as described in detail herein. In the latter case the gateway implements the PanelConnect interface and communicates directly to the security panel and/or sensors over wireless or wired networks as described in detail above.
The touchscreen of an embodiment is configured to operate with multiple security systems through the use of an abstracted security system interface. In this embodiment, the PanelConnect API can be configured to support a plurality of proprietary security system interfaces, either simultaneously or individually as described herein. In one embodiment of this approach, the touchscreen incorporates multiple physical interfaces to security panels (e.g. GE Security RS-485, Honeywell RF, etc.) in addition to the PanelConnect API implemented to support multiple security interfaces. The change needed to support this in PanelConnect is a configuration parameter specifying the panel type connection that is being utilized.
So for example, the setARMState( ) function is called with an additional parameter (e.g., Armstate=setARMState(type=“ARM STAY|ARM AWAY|DISARM”, Parameters=“ExitDelay=30 Lights=OFF”, panelType=“GE Concord4 RS485”)). The ‘panelType’ parameter is used by the setARMState function (and in practice by all of the PanelConnect functions) to select an algorithm appropriate to the specific panel out of a plurality of alogorithms.
The touchscreen of an embodiment is self-installable. Consequently, the touchscreen provides a ‘wizard’ approach similar to that used in traditional computer installations (e.g. InstallShield). The wizard can be resident on the touchscreen, accessible through a web interface, or both. In one embodiment of a touchscreen self-installation process, the service provider can associate devices (sensors, touchscreens, security panels, lighting controls, etc.) remotely using a web-based administrator interface.
The touchscreen of an embodiment includes a battery backup system for a security touchscreen. The touchscreen incorporates a standard Li-ion or other battery and charging circuitry to allow continued operation in the event of a power outage. In an embodiment the battery is physically located and connected within the touchscreen enclosure. In another embodiment the battery is located as a part of the power transformer, or in between the power transformer and the touchscreen.
The example configurations of the integrated security system described above with reference to FIGS. 7 and 8 include a gateway that is a separate device, and the touchscreen couples to the gateway. However, in an alternative embodiment, the gateway device and its functionality can be incorporated into the touchscreen so that the device management module, which is now a component of or included in the touchscreen, is in charge of the discovery, installation and configuration of the IP devices coupled or connected to the system, as described above. The integrated security system with the integrated touchscreen/gateway uses the same “sandbox” network to discover and manage all IP devices coupled or connected as components of the system.
The touchscreen of this alternative embodiment integrates the components of the gateway with the components of the touchscreen as described herein. More specifically, the touchscreen of this alternative embodiment includes software or applications described above with reference to FIG. 5 . In this alternative embodiment, the touchscreen includes the gateway application layer 302 as the main program that orchestrates the operations performed by the gateway. A Security Engine 304 of the touchscreen provides robust protection against intentional and unintentional intrusion into the integrated security system network from the outside world (both from inside the premises as well as from the WAN). The Security Engine 304 of an embodiment comprises one or more sub-modules or components that perform functions including, but not limited to, the following:
    • Encryption including 128-bit SSL encryption for gateway and iConnect server communication to protect user data privacy and provide secure communication.
    • Bi-directional authentication between the touchscreen and iConnect server in order to prevent unauthorized spoofing and attacks. Data sent from the iConnect server to the gateway application (or vice versa) is digitally signed as an additional layer of security. Digital signing provides both authentication and validation that the data has not been altered in transit.
    • Camera SSL encapsulation because picture and video traffic offered by off-the-shelf networked IP cameras is not secure when traveling over the Internet. The touchscreen provides for 128-bit SSL encapsulation of the user picture and video data sent over the internet for complete user security and privacy.
    • 802.11b/g/n with WPA-2 security to ensure that wireless camera communications always takes place using the strongest available protection.
    • A touchscreen-enabled device is assigned a unique activation key for activation with an iConnect server. This ensures that only valid gateway-enabled devices can be activated for use with the specific instance of iConnect server in use. Attempts to activate gateway-enabled devices by brute force are detected by the Security Engine. Partners deploying touchscreen-enabled devices have the knowledge that only a gateway with the correct serial number and activation key can be activated for use with an iConnect server. Stolen devices, devices attempting to masquerade as gateway-enabled devices, and malicious outsiders (or insiders as knowledgeable but nefarious customers) cannot effect other customers' gateway-enabled devices.
As standards evolve, and new encryption and authentication methods are proven to be useful, and older mechanisms proven to be breakable, the security manager can be upgraded “over the air” to provide new and better security for communications between the iConnect server and the gateway application, and locally at the premises to remove any risk of eavesdropping on camera communications.
A Remote Firmware Download module 306 of the touchscreen allows for seamless and secure updates to the gateway firmware through the iControl Maintenance Application on the server 104, providing a transparent, hassle-free mechanism for the service provider to deploy new features and bug fixes to the installed user base. The firmware download mechanism is tolerant of connection loss, power interruption and user interventions (both intentional and unintentional). Such robustness reduces down time and customer support issues. Touchscreen firmware can be remotely download either for one touchscreen at a time, a group of touchscreen, or in batches.
The Automations engine 308 of the touchscreen manages the user-defined rules of interaction between the different devices (e.g. when door opens turn on the light). Though the automation rules are programmed and reside at the portal/server level, they are cached at the gateway level in order to provide short latency between device triggers and actions.
DeviceConnect 310 of the touchscreen touchscreen includes definitions of all supported devices (e.g., cameras, security panels, sensors, etc.) using a standardized plug-in architecture. The DeviceConnect module 310 offers an interface that can be used to quickly add support for any new device as well as enabling interoperability between devices that use different technologies/protocols. For common device types, pre-defined sub-modules have been defined, making supporting new devices of these types even easier. SensorConnect 312 is provided for adding new sensors, CameraConnect 316 for adding IP cameras, and PanelConnect 314 for adding home security panels.
The Schedules engine 318 of the touchscreen is responsible for executing the user defined schedules (e.g., take a picture every five minutes; every day at 8 am set temperature to 65 degrees Fahrenheit, etc.). Though the schedules are programmed and reside at the iConnect server level they are sent to the scheduler within the gateway application of the touchscreen. The Schedules Engine 318 then interfaces with SensorConnect 312 to ensure that scheduled events occur at precisely the desired time.
The Device Management module 320 of the touchscreen is in charge of all discovery, installation and configuration of both wired and wireless IP devices (e.g., cameras, etc.) coupled or connected to the system. Networked IP devices, such as those used in the integrated security system, require user configuration of many IP and security parameters, and the device management module of an embodiment handles the details of this configuration. The device management module also manages the video routing module described below.
The video routing engine 322 of the touchscreen is responsible for delivering seamless video streams to the user with zero-configuration. Through a multi-step, staged approach the video routing engine uses a combination of UPnP port-forwarding, relay server routing and STUN/TURN peer-to-peer routing. The video routing engine is described in detail in the Related applications.
FIG. 11 is a block diagram 900 of network or premise device integration with a premise network 250, under an embodiment. In an embodiment, network devices 255, 256, 957 are coupled to the touchscreen 902 using a secure network connection such as SSL over an encrypted 802.11 link (utilizing for example WPA-2 security for the wireless encryption), and the touchscreen 902 coupled to the premise router/firewall 252 via a coupling with a premise LAN 250. The premise router/firewall 252 is coupled to a broadband modem 251, and the broadband modem 251 is coupled to a WAN 200 or other network outside the premise. The touchscreen 902 thus enables or forms a separate wireless network, or sub-network, that includes some number of devices and is coupled or connected to the LAN 250 of the host premises. The touchscreen sub-network can include, but is not limited to, any number of other devices like WiFi IP cameras, security panels (e.g., IP-enabled), and IP devices, to name a few. The touchscreen 902 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250/WAN 200, but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the touchscreen 902.
FIG. 12 is a block diagram 1000 of network or premise device integration with a premise network 250, under an alternative embodiment. The network or premise devices 255, 256, 1057 are coupled to the touchscreen 1002, and the touchscreen 1002 is coupled or connected between the premise router/firewall 252 and the broadband modem 251. The broadband modem 251 is coupled to a WAN 200 or other network outside the premise, while the premise router/firewall 252 is coupled to a premise LAN 250. As a result of its location between the broadband modem 251 and the premise router/firewall 252, the touchscreen 1002 can be configured or function as the premise router routing specified data between the outside network (e.g., WAN 200) and the premise router/firewall 252 of the LAN 250. As described above, the touchscreen 1002 in this configuration enables or forms a separate wireless network, or sub-network, that includes the network or premise devices 255, 156, 1057 and is coupled or connected between the LAN 250 of the host premises and the WAN 200. The touchscreen sub-network can include, but is not limited to, any number of network or premise devices 255, 256, 1057 like WiFi IP cameras, security panels (e.g., IP-enabled), and security touchscreens, to name a few. The touchscreen 1002 manages or controls the sub-network separately from the LAN 250 and transfers data and information between components of the sub-network and the LAN 250/WAN 200, but is not so limited. Additionally, other network devices 254 can be coupled to the LAN 250 without being coupled to the touchscreen 1002.
The gateway of an embodiment, whether a stand-along component or integrated with a touchscreen, enables couplings or connections and thus the flow or integration of information between various components of the host premises and various types and/or combinations of IP devices, where the components of the host premises include a network (e.g., LAN) and/or a security system or subsystem to name a few. Consequently, the gateway controls the association between and the flow of information or data between the components of the host premises. For example, the gateway of an embodiment forms a sub-network coupled to another network (e.g., WAN, LAN, etc.), with the sub-network including IP devices. The gateway further enables the association of the IP devices of the sub-network with appropriate systems on the premises (e.g., security system, etc.). Therefore, for example, the gateway can form a sub-network of IP devices configured for security functions, and associate the sub-network only with the premises security system, thereby segregating the IP devices dedicated to security from other IP devices that may be coupled to another network on the premises.
The gateway of an embodiment, as described herein, enables couplings or connections and thus the flow of information between various components of the host premises and various types and/or combinations of IP devices, where the components of the host premises include a network, a security system or subsystem to name a few. Consequently, the gateway controls the association between and the flow of information or data between the components of the host premises. For example, the gateway of an embodiment forms a sub-network coupled to another network (e.g., WAN, LAN, etc.), with the sub-network including IP devices. The gateway further enables the association of the IP devices of the sub-network with appropriate systems on the premises (e.g., security system, etc.). Therefore, for example, the gateway can form a sub-network of IP devices configured for security functions, and associate the sub-network only with the premises security system, thereby segregating the IP devices dedicated to security from other IP devices that may be coupled to another network on the premises.
FIG. 13 is a flow diagram for a method 1100 of forming a security network including integrated security system components, under an embodiment. Generally, the method comprises coupling 1102 a gateway comprising a connection management component to a local area network in a first location and a security server in a second location. The method comprises forming 1104 a security network by automatically establishing a wireless coupling between the gateway and a security system using the connection management component. The security system of an embodiment comprises security system components located at the first location. The method comprises integrating 1106 communications and functions of the security system components into the security network via the wireless coupling.
FIG. 14 is a flow diagram for a method 1200 of forming a security network including integrated security system components and network devices, under an embodiment. Generally, the method comprises coupling 1202 a gateway to a local area network located in a first location and a security server in a second location. The method comprises automatically establishing 1204 communications between the gateway and security system components at the first location, the security system including the security system components. The method comprises automatically establishing 1206 communications between the gateway and premise devices at the first location. The method comprises forming 1208 a security network by electronically integrating, via the gateway, communications and functions of the premise devices and the security system components.
In an example embodiment, FIG. 15 is a flow diagram 1300 for integration or installation of an IP device into a private network environment, under an embodiment. The IP device includes any IP-capable device which, for example, includes the touchscreen of an embodiment. The variables of an embodiment set at time of installation include, but are not limited to, one or more of a private SSID/Password, a gateway identifier, a security panel identifier, a user account TS, and a Central Monitoring Station account identification.
An embodiment of the IP device discovery and management begins with a user or installer activating 1302 the gateway and initiating 1304 the install mode of the system. This places the gateway in an install mode. Once in install mode, the gateway shifts to a default (Install) Wifi configuration. This setting will match the default setting for other integrated security system-enabled devices that have been pre-configured to work with the integrated security system. The gateway will then begin to provide 1306 DHCP addresses for these IP devices. Once the devices have acquired a new DHCP address from the gateway, those devices are available for configuration into a new secured Wifi network setting.
The user or installer of the system selects 1308 all devices that have been identified as available for inclusion into the integrated security system. The user may select these devices by their unique IDs via a web page, Touchscreen, or other client interface. The gateway provides 1310 data as appropriate to the devices. Once selected, the devices are configured 1312 with appropriate secured Wifi settings, including SSID and WPA/WPA-2 keys that are used once the gateway switches back to the secured sandbox configuration from the “Install” settings. Other settings are also configured as appropriate for that type of device. Once all devices have been configured, the user is notified and the user can exit install mode. At this point all devices will have been registered 1314 with the integrated security system servers.
The installer switches 1316 the gateway to an operational mode, and the gateway instructs or directs 1318 all newly configured devices to switch to the “secured” Wifi sandbox settings. The gateway then switches 1320 to the “secured” Wifi settings. Once the devices identify that the gateway is active on the “secured” network, they request new DHCP addresses from the gateway which, in response, provides 1322 the new addresses. The devices with the new addresses are then operational 1324 on the secured network.
In order to ensure the highest level of security on the secured network, the gateway can create or generate a dynamic network security configuration based on the unique ID and private key in the gateway, coupled with a randomizing factor that can be based on online time or other inputs. This guarantees the uniqueness of the gateway secured network configuration.
To enable the highest level of performance, the gateway analyzes the RF spectrum of the 802.11x network and determines which frequency band/channel it should select to run.
An alternative embodiment of the camera/IP device management process leverages the local ethernet connection of the sandbox network on the gateway. This alternative process is similar to the Wifi discovery embodiment described above, except the user connects the targeted device to the ethernet port of the sandbox network to begin the process. This alternative embodiment accommodates devices that have not been pre-configured with the default “Install” configuration for the integrated security system.
This alternative embodiment of the IP device discovery and management begins with the user/installer placing the system into install mode. The user is instructed to attach an IP device to be installed to the sandbox Ethernet port of the gateway. The IP device requests a DHCP address from the gateway which, in response to the request, provides the address. The user is presented the device and is asked if he/she wants to install the device. If yes, the system configures the device with the secured Wifi settings and other device-specific settings (e.g., camera settings for video length, image quality etc.). The user is next instructed to disconnect the device from the ethernet port. The device is now available for use on the secured sandbox network.
FIG. 16 is a block diagram showing communications among integrated IP devices of the private network environment, under an embodiment. The IP devices of this example include a security touchscreen 1403, gateway 1402 (e.g., “iHub”), and security panel (e.g., “Security Panel 1”, “Security Panel 2”, “Security Panel n”), but the embodiment is not so limited. In alternative embodiments any number and/or combination of these three primary component types may be combined with other components including IP devices and/or security system components. For example, a single device which comprises an integrated gateway, touchscreen, and security panel is merely another embodiment of the integrated security system described herein. The description that follows includes an example configuration that includes a touchscreen hosting particular applications. However, the embodiment is not limited to the touchscreen hosting these applications, and the touchscreen should be thought of as representing any IP device.
Referring to FIG. 16 , the touchscreen 1403 incorporates an application 1410 that is implemented as computer code resident on the touchscreen operating system, or as a web-based application running in a browser, or as another type of scripted application (e.g., Flash, Java, Visual Basic, etc.). The touchscreen core application 1410 represents this application, providing user interface and logic for the end user to manage their security system or to gain access to networked information or content (Widgets). The touchscreen core application 1410 in turn accesses a library or libraries of functions to control the local hardware (e.g. screen display, sound, LEDs, memory, etc.) as well as specialized librarie(s) to couple or connect to the security system.
In an embodiment of this security system connection, the touchscreen 1403 communicates to the gateway 1402, and has no direct communication with the security panel. In this embodiment, the touchscreen core application 1410 accesses the remote service APIs 1412 which provide security system functionality (e.g. ARM/DISARM panel, sensor state, get/set panel configuration parameters, initiate or get alarm events, etc.). In an embodiment, the remote service APIs 1412 implement one or more of the following functions, but the embodiment is not so limited: Armstate=setARMState(type=“ARM STAY|ARM AWAY|DISARM”, Parameters=“ExitDelay=30|(Lights=OFF”); sensorState=getSensors(type=“ALL|SensorName|SensorNameList”); result=setSensorState(SensorName, parameters=“Option1, Options2, . . . Option n”); interruptHandler=SensorEvent( ); and, interruptHandler=alarmEvent( ).
Functions of the remote service APIs 1412 of an embodiment use a remote PanelConnect API 1424 which resides in memory on the gateway 1402. The touchscreen 1403 communicates with the gateway 1402 through a suitable network interface such as an Ethernet or 802.11 RF connection, for example. The remote PanelConnect API 1424 provides the underlying Security System Interfaces 1426 used to communicate with and control one or more types of security panel via wired link 1430 and/or RF link 3. The PanelConnect API 1224 provides responses and input to the remote services APIs 1426, and in turn translates function calls and data to and from the specific protocols and functions supported by a specific implementation of a Security Panel (e.g. a GE Security Simon XT or Honeywell Vista 20P). In an embodiment, the PanelConnect API 1224 uses a 345 MHz RF transceiver or receiver hardware/firmware module to communicate wirelessly to the security panel and directly to a set of 345 MHz RF-enabled sensors and devices, but the embodiment is not so limited.
The gateway of an alternative embodiment communicates over a wired physical coupling or connection to the security panel using the panel's specific wired hardware (bus) interface and the panel's bus-level protocol.
In an alternative embodiment, the Touchscreen 1403 implements the same PanelConnect API 1414 locally on the Touchscreen 1403, communicating directly with the Security Panel 2 and/or Sensors 2 over the proprietary RF link or over a wired link for that system. In this embodiment the Touchscreen 1403, instead of the gateway 1402, incorporates the 345 MHz RF transceiver to communicate directly with Security Panel 2 or Sensors 2 over the RF link 2. In the case of a wired link the Touchscreen 1403 incorporates the real-time hardware (e.g. a PIC chip and RS232-variant serial link) to physically connect to and satisfy the specific bus-level timing requirements of the SecurityPanel2.
In yet another alternative embodiment, either the gateway 1402 or the Touchscreen 1403 implements the remote service APIs. This embodiment includes a SPIM device, as described in detail herein, which comprises but is not limited to a processor (suitable for handling 802.11 protocols and processing, as well as the bus timing requirements of SecurityPanel1), an 802.11 (WiFi) client IP interface chip, and a serial bus interface chip that implements variants of RS232 or RS485, depending on the specific Security Panel.
The SPIM also implements the full PanelConnect APIs such that it can perform the same functions as the case where the gateway implements the PanelConnect APIs. In this embodiment, the touchscreen core application 1410 calls functions in the remote service APIs 1412 (such as setArmState( )). These functions in turn couple or connect to the remote SPIM through a standard IP connection (“SPIM IP Link”) (e.g., Ethernet, Homeplug, the gateway's proprietary Wifi network, etc.). The SPIM in turn implements the PanelConnect API, which responds to the request from the touchscreen core application, and performs the appropriate function using the proprietary panel interface. This interface uses either the wireless or wired proprietary protocol for the specific security panel and/or sensors.
FIG. 17 is a flow diagram of a method of integrating an external control and management application system with an existing security system, under an embodiment. Operations begin when the system is powered on 1510, involving at a minimum the power-on of the gateway device, and optionally the power-on of the connection between the gateway device and the remote servers. The gateway device initiates 1520 a software and RF sequence to locate the extant security system. The gateway and installer initiate and complete 1530 a sequence to ‘learn’ the gateway into the security system as a valid and authorized control device. The gateway initiates 1540 another software and RF sequence of instructions to discover and learn the existence and capabilities of existing RF devices within the extant security system, and store this information in the system. These operations under the system of an embodiment are described in further detail below.
Unlike conventional systems that extend an existing security system, the system of an embodiment operates utilizing the proprietary wireless protocols of the security system manufacturer. In one illustrative embodiment, the gateway is an embedded computer with an IP LAN and WAN connection and a plurality of RF transceivers and software protocol modules capable of communicating with a plurality of security systems each with a potentially different RF and software protocol interface. After the gateway has completed the discovery and learning 1540 of sensors and has been integrated 1550 as a virtual control device in the extant security system, the system becomes operational. Thus, the security system and associated sensors are presented 1550 as accessible devices to a potential plurality of user interface subsystems.
The system of an embodiment integrates 1560 the functionality of the extant security system with other non-security devices including but not limited to IP cameras, touchscreens, lighting controls, door locking mechanisms, which may be controlled via RF, wired, or powerline-based networking mechanisms supported by the gateway or servers.
The system of an embodiment provides a user interface subsystem 1570 enabling a user to monitor, manage, and control the system and associated sensors and security systems. In an embodiment of the system, a user interface subsystem is an HTML/XML/Javascript/Java/AJAX/Flash presentation of a monitoring and control application, enabling users to view the state of all sensors and controllers in the extant security system from a web browser or equivalent operating on a computer, PDA, mobile phone, or other consumer device.
In another illustrative embodiment of the system described herein, a user interface subsystem is an HTML/XML/Javascript/Java/AJAX presentation of a monitoring and control application, enabling users to combine the monitoring and control of the extant security system and sensors with the monitoring and control of non-security devices including but not limited to IP cameras, touchscreens, lighting controls, door locking mechanisms.
In another illustrative embodiment of the system described herein, a user interface subsystem is a mobile phone application enabling users to monitor and control the extant security system as well as other non-security devices.
In another illustrative embodiment of the system described herein, a user interface subsystem is an application running on a keypad or touchscreen device enabling users to monitor and control the extant security system as well as other non-security devices.
In another illustrative embodiment of the system described herein, a user interface subsystem is an application operating on a TV or set-top box connected to a TV enabling users to monitor and control the extant security system as well as other non-security devices.
FIG. 18 is a block diagram of an integrated security system 1600 wirelessly interfacing to proprietary security systems, under an embodiment. A security system 1610 is coupled or connected to a Gateway 1620, and from Gateway 1620 coupled or connected to a plurality of information and content sources across a network 1630 including one or more web servers 1640, system databases 1650, and applications servers 1660. While in one embodiment network 1630 is the Internet, including the World Wide Web, those of skill in the art will appreciate that network 1630 may be any type of network, such as an intranet, an extranet, a virtual private network (VPN), a mobile network, or a non-TCP/IP based network.
Moreover, other elements of the system of an embodiment may be conventional, well-known elements that need not be explained in detail herein. For example, security system 1610 could be any type home or business security system, such devices including but not limited to a standalone RF home security system or a non-RF-capable wired home security system with an add-on RF interface module. In the integrated security system 1600 of this example, security system 1610 includes an RF-capable wireless security panel (WSP) 1611 that acts as the master controller for security system 1610. Well-known examples of such a WSP include the GE Security Concord, Networx, and Simon panels, the Honeywell Vista and Lynx panels, and similar panels from DSC and Napco, to name a few. A wireless module 1614 includes the RF hardware and protocol software necessary to enable communication with and control of a plurality of wireless devices 1613. WSP 1611 may also manage wired devices 1614 physically connected to WSP 1611 with an RS232 or RS485 or Ethernet connection or similar such wired interface.
In an implementation consistent with the systems and methods described herein, Gateway 1620 provides the interface between security system 1610 and LAN and/or WAN for purposes of remote control, monitoring, and management. Gateway 1620 communicates with an external web server 1640, database 1650, and application server 1660 over network 1630 (which may comprise WAN, LAN, or a combination thereof). In this example system, application logic, remote user interface functionality, as well as user state and account are managed by the combination of these remote servers. Gateway 1620 includes server connection manager 1621, a software interface module responsible for all server communication over network 1630. Event manager 1622 implements the main event loop for Gateway 1620, processing events received from device manager 1624 (communicating with non-security system devices including but not limited to IP cameras, wireless thermostats, or remote door locks). Event manager 1622 further processes events and control messages from and to security system 1610 by utilizing WSP manager 1623.
WSP manager 1623 and device manager 1624 both rely upon wireless protocol manager 1626 which receives and stores the proprietary or standards-based protocols required to support security system 1610 as well as any other devices interfacing with gateway 1620. WSP manager 1623 further utilizes the comprehensive protocols and interface algorithms for a plurality of security systems 1610 stored in the WSP DB client database associated with wireless protocol manager 1626. These various components implement the software logic and protocols necessary to communicate with and manager devices and security systems 1610. Wireless Transceiver hardware modules 1625 are then used to implement the physical RF communications link to such devices and security systems 1610. An illustrative wireless transceiver 1625 is the GE Security Dialog circuit board, implementing a 319.5 MHz two-way RF transceiver module. In this example, RF Link 1670 represents the 319.5 MHz RF communication link, enabling gateway 1620 to monitor and control WSP 1611 and associated wireless and wired devices 1613 and 1614, respectively.
In one embodiment, server connection manager 1621 requests and receives a set of wireless protocols for a specific security system 1610 (an illustrative example being that of the GE Security Concord panel and sensors) and stores them in the WSP DB portion of the wireless protocol manager 1626. WSP manager 1623 then utilizes such protocols from wireless protocol manager 1626 to initiate the sequence of processes detailed in FIG. 17 and FIG. 18 for learning gateway 1620 into security system 1610 as an authorized control device. Once learned in, as described with reference to FIG. 18 (and above), event manager 1622 processes all events and messages detected by the combination of WSP manager 1623 and the GE Security wireless transceiver module 1625.
In another embodiment, gateway 1620 incorporates a plurality of wireless transceivers 1625 and associated protocols managed by wireless protocol manager 1626. In this embodiment events and control of multiple heterogeneous devices may be coordinated with WSP 1611, wireless devices 1613, and wired devices 1614. For example a wireless sensor from one manufacturer may be utilized to control a device using a different protocol from a different manufacturer.
In another embodiment, gateway 1620 incorporates a wired interface to security system 1610, and incorporates a plurality of wireless transceivers 1625 and associated protocols managed by wireless protocol manager 1626. In this embodiment events and control of multiple heterogeneous devices may be coordinated with WSP 1611, wireless devices 1613, and wired devices 1614.
Of course, while an illustrative embodiment of an architecture of the system of an embodiment is described in detail herein with respect to FIG. 18 , one of skill in the art will understand that modifications to this architecture may be made without departing from the scope of the description presented herein. For example, the functionality described herein may be allocated differently between client and server, or amongst different server or processor-based components. Likewise, the entire functionality of the gateway 1620 described herein could be integrated completely within an existing security system 1610. In such an embodiment, the architecture could be directly integrated with a security system 1610 in a manner consistent with the currently described embodiments.
FIG. 19 is a flow diagram for wirelessly ‘learning’ the Gateway into an existing security system and discovering extant sensors, under an embodiment. The learning interfaces gateway 1620 with security system 1610. Gateway 1620 powers up 1710 and initiates software sequences 1720 and 1725 to identify accessible WSPs 1611 and wireless devices 1613, respectively (e.g., one or more WSPs and/or devices within range of gateway 1620). Once identified, WSP 1611 is manually or automatically set into ‘learn mode’ 1730, and gateway 1620 utilizes available protocols to add 1740 itself as an authorized control device in security system 1610. Upon successful completion of this task, WSP 1611 is manually or automatically removed from ‘learn mode’ 1750.
Gateway 1620 utilizes the appropriate protocols to mimic 1760 the first identified device 1614. In this operation gateway 1620 identifies itself using the unique or pseudo-unique identifier of the first found device 1614, and sends an appropriate change of state message over RF Link 1670. In the event that WSP 1611 responds to this change of state message, the device 1614 is then added 1770 to the system in database 1650. Gateway 1620 associates 1780 any other information (such as zone name or token-based identifier) with this device 1614 in database 1650, enabling gateway 1620, user interface modules, or any application to retrieve this associated information.
In the event that WSP 1611 does not respond to the change of state message, the device 1614 is not added 1770 to the system in database 1650, and this device 1614 is identified as not being a part of security system 1610 with a flag, and is either ignored or added as an independent device, at the discretion of the system provisioning rules. Operations hereunder repeat 1785 operations 1760, 1770, 1780 for all devices 1614 if applicable. Once all devices 1614 have been tested in this way, the system begins operation 1790.
In another embodiment, gateway 1620 utilizes a wired connection to WSP 1611, but also incorporates a wireless transceiver 1625 to communicate directly with devices 1614. In this embodiment, operations under 1720 above are removed, and operations under 1740 above are modified so the system of this embodiment utilizes wireline protocols to add itself as an authorized control device in security system 1610.
A description of an example embodiment follows in which the Gateway (FIG. 18 , element 1620) is the iHub available from iControl Networks, Palo Alto, Calif., and described in detail herein. In this example the gateway is “automatically” installed with a security system.
The automatic security system installation begins with the assignment of an authorization key to components of the security system (e.g., gateway, kit including the gateway, etc.). The assignment of an authorization key is done in lieu of creating a user account. An installer later places the gateway in a user's premises along with the premises security system. The installer uses a computer to navigate to a web portal (e.g., integrated security system web interface), logs in to the portal, and enters the authorization key of the installed gateway into the web portal for authentication. Once authenticated, the gateway automatically discovers devices at the premises (e.g., sensors, cameras, light controls, etc.) and adds the discovered devices to the system or “network”. The installer assigns names to the devices, and tests operation of the devices back to the server (e.g., did the door open, did the camera take a picture, etc.). The security device information is optionally pushed or otherwise propagated to a security panel and/or to the server network database. The installer finishes the installation, and instructs the end user on how to create an account, username, and password. At this time the user enters the authorization key which validates the account creation (uses a valid authorization key to associate the network with the user's account). New devices may subsequently be added to the security network in a variety of ways (e.g., user first enters a unique ID for each device/sensor and names it in the server, after which the gateway can automatically discover and configure the device).
A description of another example embodiment follows in which the security system (FIG. 18 , element 1610) is a Dialog system and the WSP (FIG. 18 , element 1611) is a SimonXT available from General Electric Security, and the Gateway (FIG. 18 , element 1620) is the iHub available from iControl Networks, Palo Alto, Calif., and described in detail herein. Descriptions of the install process for the SimonXT and iHub are also provided below.
GE Security's Dialog network is one of the most widely deployed and tested wireless security systems in the world. The physical RF network is based on a 319.5 MHz unlicensed spectrum, with a bandwidth supporting up to 19 Kbps communications. Typical use of this bandwidth—even in conjunction with the integrated security system—is far less than that. Devices on this network can support either one-way communication (either a transmitter or a receiver) or two-way communication (a transceiver). Certain GE Simon, Simon XT, and Concord security control panels incorporate a two-way transceiver as a standard component. The gateway also incorporates the same two-way transceiver card. The physical link layer of the network is managed by the transceiver module hardware and firmware, while the coded payload bitstreams are made available to the application layer for processing.
Sensors in the Dialog network typically use a 60-bit protocol for communicating with the security panel transceiver, while security system keypads and the gateway use the encrypted 80-bit protocol. The Dialog network is configured for reliability, as well as low-power usage. Many devices are supervised, i.e. they are regularly monitored by the system ‘master’ (typically a GE security panel), while still maintaining excellent power usage characteristics. A typical door window sensor has a battery life in excess of 5-7 years.
The gateway has two modes of operation in the Dialog network: a first mode of operation is when the gateway is configured or operates as a ‘slave’ to the GE security panel; a second mode of operation is when the gateway is configured or operates as a ‘master’ to the system in the event a security panel is not present. In both configurations, the gateway has the ability to ‘listen’ to network traffic, enabling the gateway to continually keep track of the status of all devices in the system. Similarly, in both situations the gateway can address and control devices that support setting adjustments (such as the GE wireless thermostat).
In the configuration in which the gateway acts as a ‘slave’ to the security panel, the gateway is ‘learned into’ the system as a GE wireless keypad. In this mode of operation, the gateway emulates a security system keypad when managing the security panel, and can query the security panel for status and ‘listen’ to security panel events (such as alarm events).
The gateway incorporates an RF Transceiver manufactured by GE Security, but is not so limited. This transceiver implements the Dialog protocols and handles all network message transmissions, receptions, and timing. As such, the physical, link, and protocol layers of the communications between the gateway and any GE device in the Dialog network are totally compliant with GE Security specifications.
At the application level, the gateway emulates the behavior of a GE wireless keypad utilizing the GE Security 80-bit encrypted protocol, and only supported protocols and network traffic are generated by the gateway. Extensions to the Dialog RF protocol of an embodiment enable full control and configuration of the panel, and iControl can both automate installation and sensor enrollment as well as direct configuration downloads for the panel under these protocol extensions.
As described above, the gateway participates in the GE Security network at the customer premises. Because the gateway has intelligence and a two-way transceiver, it can ‘hear’ all of the traffic on that network. The gateway makes use of the periodic sensor updates, state changes, and supervisory signals of the network to maintain a current state of the premises. This data is relayed to the integrated security system server (e.g., FIG. 4 , element 260) and stored in the event repository for use by other server components. This usage of the GE Security RF network is completely non-invasive; there is no new data traffic created to support this activity.
The gateway can directly (or indirectly through the Simon XT panel) control two-way devices on the network. For example, the gateway can direct a GE Security Thermostat to change its setting to ‘Cool’ from ‘Off’, as well as request an update on the current temperature of the room. The gateway performs these functions using the existing GE Dialog protocols, with little to no impact on the network; a gateway device control or data request takes only a few dozen bytes of data in a network that can support 19 Kbps.
By enrolling with the Simon XT as a wireless keypad, as described herein, the gateway includes data or information of all alarm events, as well as state changes relevant to the security panel. This information is transferred to the gateway as encrypted packets in the same way that the information is transferred to all other wireless keypads on the network.
Because of its status as an authorized keypad, the gateway can also initiate the same panel commands that a keypad can initiate. For example, the gateway can arm or disarm the panel using the standard Dialog protocol for this activity. Other than the monitoring of standard alarm events like other network keypads, the only incremental data traffic on the network as a result of the gateway is the infrequent remote arm/disarm events that the gateway initiates, or infrequent queries on the state of the panel.
The gateway is enrolled into the Simon XT panel as a ‘slave’ device which, in an embodiment, is a wireless keypad. This enables the gateway for all necessary functionality for operating the Simon XT system remotely, as well as combining the actions and information of non-security devices such as lighting or door locks with GE Security devices. The only resource taken up by the gateway in this scenario is one wireless zone (sensor ID).
The gateway of an embodiment supports three forms of sensor and panel enrollment/installation into the integrated security system, but is not limited to this number of enrollment/installation options. The enrollment/installation options of an embodiment include installer installation, kitting, and panel, each of which is described below.
Under the installer option, the installer enters the sensor IDs at time of installation into the integrated security system web portal or iScreen. This technique is supported in all configurations and installations.
Kits can be pre-provisioned using integrated security system provisioning applications when using the kitting option. At kitting time, multiple sensors are automatically associated with an account, and at install time there is no additional work required.
In the case where a panel is installed with sensors already enrolled (i.e. using the GE Simon XT enrollment process), the gateway has the capability to automatically extract the sensor information from the system and incorporate it into the user account on the integrated security system server.
The gateway and integrated security system of an embodiment uses an auto-learn process for sensor and panel enrollment in an embodiment. The deployment approach of an embodiment can use additional interfaces that GE Security is adding to the Simon XT panel. With these interfaces, the gateway has the capability to remotely enroll sensors in the panel automatically. The interfaces include, but are not limited to, the following: EnrollDevice(ID, type, name, zone, group); SetDeviceParameters(ID, type, Name, zone, group), GetDeviceParameters(zone); and RemoveDevice(zone).
The integrated security system incorporates these new interfaces into the system, providing the following install process. The install process can include integrated security system logistics to handle kitting and pre-provisioning. Pre-kitting and logistics can include a pre-provisioning kitting tool provided by integrated security system that enables a security system vendor or provider (“provider”) to offer pre-packaged initial ‘kits’. This is not required but is recommended for simplifying the install process. This example assumes a ‘Basic’ kit is preassembled and includes one (1) Simon XT, three (3) Door/window sensors, one (1) motion sensor, one (1) gateway, one (1) keyfob, two (2) cameras, and ethernet cables. The kit also includes a sticker page with all Zones (1-24) and Names (full name list).
The provider uses the integrated security system kitting tool to assemble ‘Basic’ kit packages. The contents of different types of starter kits may be defined by the provider. At the distribution warehouse, a worker uses a bar code scanner to scan each sensor and the gateway as it is packed into the box. An ID label is created that is attached to the box. The scanning process automatically associates all the devices with one kit, and the new ID label is the unique identifier of the kit. These boxes are then sent to the provider for distribution to installer warehouses. Individual sensors, cameras, etc. are also sent to the provider installer warehouse. Each is labeled with its own barcode/ID.
An installation and enrollment procedure of a security system including a gateway is described below as one example of the installation process.
  • 1. Order and Physical Install Process
    • a. Once an order is generated in the iControl system, an account is created and an install ticket is created and sent electronically to the provider for assignment to an installer.
    • b. The assigned installer picks up his/her ticket(s) and fills his/her truck with Basic and/or Advanced starter kits. He/she also keeps a stock of individual sensors, cameras, iHubs, Simon XTs, etc. Optionally, the installer can also stock homeplug adapters for problematic installations.
    • c. The installer arrives at the address on the ticket, and pulls out the Basic kit. The installer determines sensor locations from a tour of the premises and discussion with the homeowner. At this point assume the homeowner requests additional equipment including an extra camera, two (2) additional door/window sensors, one (1) glass break detector, and one (1) smoke detector.
    • d. Installer mounts SimonXT in the kitchen or other location in the home as directed by the homeowner, and routes the phone line to Simon XT if available. GPRS and Phone numbers pre-programmed in SimonXT to point to the provider Central Monitoring Station (CMS).
    • e. Installer places gateway in the home in the vicinity of a router and cable modem. Installer installs an ethernet line from gateway to router and plugs gateway into an electrical outlet.
  • 2. Associate and Enroll gateway into SimonXT
    • a. Installer uses either his/her own laptop plugged into router, or homeowners computer to go to the integrated security system web interface and log in with installer ID/pass.
    • b. Installer enters ticket number into admin interface, and clicks ‘New Install’ button. Screen prompts installer for kit ID (on box's barcode label).
    • c. Installer clicks ‘Add SimonXT’. Instructions prompt installer to put Simon XT into install mode, and add gateway as a wireless keypad. It is noted that this step is for security only and can be automated in an embodiment.
    • d. Installer enters the installer code into the Simon XT. Installer Learns ‘gateway’ into the panel as a wireless keypad as a group 1 device.
    • e. Installer goes back to Web portal, and clicks the ‘Finished Adding SimonXT’ button.
  • 3. Enroll Sensors into SimonXT Via iControl
    • a. All devices in the Basic kit are already associated with the user's account.
    • b. For additional devices, Installer clicks ‘Add Device’ and adds the additional camera to the user's account (by typing in the camera ID/Serial #).
    • c. Installer clicks ‘Add Device’ and adds other sensors (two (2) door/window sensors, one (1) glass break sensor, and one (1) smoke sensor) to the account (e.g., by typing in IDs).
    • d. As part of Add Device, Installer assigns zone, name, and group to the sensor. Installer puts appropriate Zone and Name sticker on the sensor temporarily.
    • e. All sensor information for the account is pushed or otherwise propagated to the iConnect server, and is available to propagate to CMS automation software through the CMS application programming interface (API).
    • f. Web interface displays ‘Installing Sensors in System . . . ’ and automatically adds all of the sensors to the Simon XT panel through the GE RF link.
    • g. Web interface displays ‘Done Installing’-->all sensors show green.
  • 4. Place and Tests Sensors in Home
    • a. Installer physically mounts each sensor in its desired location, and removes the stickers.
    • b. Installer physically mounts WiFi cameras in their location and plugs into AC power. Optional fishing of low voltage wire through wall to remove dangling wires. Camera transformer is still plugged into outlet but wire is now inside the wall.
    • c. Installer goes to Web interface and is prompted for automatic camera install. Each camera is provisioned as a private, encrypted Wifi device on the gateway secured sandbox network, and firewall NAT traversal is initiated. Upon completion the customer is prompted to test the security system.
    • d. Installer selects the ‘Test System’ button on the web portal—the SimonXT is put into Test mode by the gateway over GE RF.
    • e. Installer manually tests the operation of each sensor, receiving an audible confirmation from SimonXT.
    • f. Gateway sends test data directly to CMS over broadband link, as well as storing the test data in the user's account for subsequent report generation.
    • g. Installer exits test mode from the Web portal.
  • 5. Installer instructs customer on use of the Simon XT, and shows customer how to log into the iControl web and mobile portals. Customer creates a username/password at this time.
  • 6. Installer instructs customer how to change Simon XT user code from the Web interface. Customer changes user code which is pushed to SimonXT automatically over GE RF.
An installation and enrollment procedure of a security system including a gateway is described below as an alternative example of the installation process. This installation process is for use for enrolling sensors into the SimonXT and integrated security system and is compatible with all existing GE Simon panels.
The integrated security system supports all pre-kitting functionality described in the installation process above. However, for the purpose of the following example, no kitting is used.
  • 1. Order and Physical Install Process
    • a. Once an order is generated in the iControl system, an account is created and an install ticket is created and sent electronically to the security system provider for assignment to an installer.
    • b. The assigned installer picks up his/her ticket(s) and fills his/her truck with individual sensors, cameras, iHubs, Simon XTs, etc. Optionally, the installer can also stock homeplug adapters for problematic installations.
    • c. The installer arrives at the address on the ticket, and analyzes the house and talks with the homeowner to determine sensor locations. At this point assume the homeowner requests three (3) cameras, five (5) door/window sensors, one (1) glass break detector, one (1) smoke detector, and one (1) keyfob.
    • d. Installer mounts SimonXT in the kitchen or other location in the home. The installer routes a phone line to Simon XT if available. GPRS and Phone numbers are pre-programmed in SimonXT to point to the provider CMS.
    • e. Installer places gateway in home in the vicinity of a router and cable modem, and installs an ethernet line from gateway to the router, and plugs gateway into an electrical outlet.
  • 2. Associate and Enroll gateway into SimonXT
    • a. Installer uses either his/her own laptop plugged into router, or homeowners computer to go to the integrated security system web interface and log in with an installer ID/pass.
    • b. Installer enters ticket number into admin interface, and clicks ‘New Install’ button. Screen prompts installer to add devices.
    • c. Installer types in ID of gateway, and it is associated with the user's account.
    • d. Installer clicks ‘Add Device’ and adds the cameras to the user's account (by typing in the camera ID/Serial #).
    • e. Installer clicks ‘Add SimonXT’. Instructions prompt installer to put Simon XT into install mode, and add gateway as a wireless keypad.
    • f. Installer goes to Simon XT and enters the installer code into the Simon XT. Learns ‘gateway’ into the panel as a wireless keypad as group 1 type sensor.
    • g. Installer returns to Web portal, and clicks the ‘Finished Adding SimonXT’ button.
    • h. Gateway now is alerted to all subsequent installs over the security system RF.
  • 3. Enroll Sensors into SimonXT via iControl
    • a. Installer clicks ‘Add Simon XT Sensors’—Displays instructions for adding sensors to Simon XT.
    • b. Installer goes to Simon XT and uses Simon XT install process to add each sensor, assigning zone, name, group. These assignments are recorded for later use.
    • c. The gateway automatically detects each sensor addition and adds the new sensor to the integrated security system.
    • d. Installer exits install mode on the Simon XT, and returns to the Web portal.
    • e. Installer clicks ‘Done Adding Devices’.
    • f. Installer enters zone/sensor naming from recorded notes into integrated security system to associate sensors to friendly names.
    • g. All sensor information for the account is pushed to the iConnect server, and is available to propagate to CMS automation software through the CMS API.
  • 4. Place and Tests Sensors in Home
    • a. Installer physically mounts each sensor in its desired location.
    • b. Installer physically mounts Wifi cameras in their location and plugs into AC power. Optional fishing of low voltage wire through wall to remove dangling wires. Camera transformer is still plugged into outlet but wire is now inside the wall.
    • c. Installer puts SimonXT into Test mode from the keypad.
    • d. Installer manually tests the operation of each sensor, receiving an audible confirmation from SimonXT.
    • e. Installer exits test mode from the Simon XT keypad.
    • f. Installer returns to web interface and is prompted to automatically set up cameras. After waiting for completion cameras are now provisioned and operational.
  • 5. Installer instructs customer on use of the Simon XT, and shows customer how to log into the integrated security system web and mobile portals. Customer creates a username/password at this time.
  • 6. Customer and Installer observe that all sensors/cameras are green.
  • 7. Installer instructs customer how to change Simon XT user code from the keypad. Customer changes user code and stores in SimonXT.
  • 8. The first time the customer uses the web portal to Arm/Disarm system the web interface prompts the customer for the user code, which is then stored securely on the server. In the event the user code is changed on the panel the web interface once again prompts the customer.
The panel of an embodiment can be programmed remotely. The CMS pushes new programming to SimonXT over a telephone or GPRS link. Optionally, iControl and GE provide a broadband link or coupling to the gateway and then a link from the gateway to the Simon XT over GE RF.
In addition to the configurations described above, the gateway of an embodiment supports takeover configurations in which it is introduced or added into a legacy security system. A description of example takeover configurations follow in which the security system (FIG. 4 , element 210) is a Dialog system and the WSP (FIG. 4 , element 211) is a GE Concord panel (e.g., equipped with POTS, GE RF, and Superbus 2000 RS485 interface (in the case of a Lynx takeover the Simon XT is used) available from General Electric Security. The gateway (FIG. 4 , element 220) in the takeover configurations is an iHub (e.g., equipped with built-in 802.11b/g router, Ethernet Hub, GSM/GPRS card, RS485 interface, and iControl Honeywell-compatible RF card) available from iControl Networks, Palo Alto, Calif. While components of particular manufacturers are used in this example, the embodiments are not limited to these components or to components from these vendors.
The security system can optionally include RF wireless sensors (e.g., GE wireless sensors utilizing the GE Dialog RF technology), IP cameras, a GE-iControl Touchscreen (the touchscreen is assumed to be an optional component in the configurations described herein, and is thus treated separately from the iHub; in systems in which the touchscreen is a component of the base security package, the integrated iScreen (available from iControl Networks, Palo Alto, Calif.) can be used to combine iHub technology with the touchscreen in a single unit), and Z-Wave devices to name a few.
The takeover configurations described below assume takeover by a “new” system of an embodiment of a security system provided by another third party vendor, referred to herein as an “original” or “legacy” system. Generally, the takeover begins with removal of the control panel and keypad of the legacy system. A GE Concord panel is installed to replace the control panel of the legacy system along with an iHub with GPRS Modem. The legacy system sensors are then connected or wired to the Concord panel, and a GE keypad or touchscreen is installed to replace the control panel of the legacy system. The iHub includes the iControl RF card, which is compatible with the legacy system. The iHub finds and manages the wireless sensors of the legacy system, and learns the sensors into the Concord by emulating the corresponding GE sensors. The iHub effectively acts as a relay for legacy wireless sensors.
Once takeover is complete, the new security system provides a homogeneous system that removes the compromises inherent in taking over or replacing a legacy system. For example, the new system provides a modern touchscreen that may include additional functionality, new services, and supports integration of sensors from various manufacturers. Furthermore, lower support costs can be realized because call centers, installers, etc. are only required to support one architecture. Additionally, there is minimal install cost because only the panel is required to be replaced as a result of the configuration flexibility offered by the iHub.
The system takeover configurations described below include but are not limited to a dedicated wireless configuration, a dedicated wireless configuration that includes a touchscreen, and a fished Ethernet configuration. Each of these configurations is described in detail below.
FIG. 20 is a block diagram of a security system in which the legacy panel is replaced with a GE Concord panel wirelessly coupled to an iHub, under an embodiment. All existing wired and RF sensors remain in place. The iHub is located near the Concord panel, and communicates with the panel via the 802.11 link, but is not so limited. The iHub manages cameras through a built-in 802.11 router. The iHub listens to the existing RF HW sensors, and relays sensor information to the Concord panel (emulating the equivalent GE sensor). The wired sensors of the legacy system are connected to the wired zones on the control panel.
FIG. 21 is a block diagram of a security system in which the legacy panel is replaced with a GE Concord panel wirelessly coupled to an iHub, and a GE-iControl Touchscreen, under an embodiment. All existing wired and RF sensors remain in place. The iHub is located near the Concord panel, and communicates with the panel via the 802.11 link, but is not so limited. The iHub manages cameras through a built-in 802.11 router. The iHub listens to the existing RF HW sensors, and relays sensor information to the Concord panel (emulating the equivalent GE sensor). The wired sensors of the legacy system are connected to the wired zones on the control panel.
The GE-iControl Touchscreen can be used with either of an 802.11 connection or Ethernet connection with the iHub. Because the takeover involves a GE Concord panel (or Simon XT), the touchscreen is always an option. No extra wiring is required for the touchscreen as it can use the 4-wire set from the replaced keypad of the legacy system. This provides power, battery backup (through Concord), and data link (RS485 Superbus 2000) between Concord and touchscreen. The touchscreen receives its broadband connectivity through the dedicated 802.11 link to the iHub.
FIG. 22 is a block diagram of a security system in which the legacy panel is replaced with a GE Concord panel connected to an iHub via an Ethernet coupling, under an embodiment. All existing wired and RF sensors remain in place. The iHub is located near the Concord panel, and wired to the panel using a 4-wire SUperbus 2000 (RS485) interface, but is not so limited. The iHub manages cameras through a built-in 802.11 router. The iHub listens to the existing RF HW sensors, and relays sensor information to the Concord panel (emulating the equivalent GE sensor). The wired sensors of the legacy system are connected to the wired zones on the control panel.
The takeover installation process is similar to the installation process described above, except the control panel of the legacy system is replaced; therefore, only the differences with the installation described above are provided here. The takeover approach of an embodiment uses the existing RS485 control interfaces that GE Security and iControl support with the iHub, touchscreen, and Concord panel. With these interfaces, the iHub is capable of automatically enrolling sensors in the panel. The exception is the leverage of an iControl RF card compatible with legacy systems to ‘takeover’ existing RF sensors. A description of the takeover installation process follows.
During the installation process, the iHub uses an RF Takeover Card to automatically extract all sensor IDs, zones, and names from the legacy panel. The installer removes connections at the legacy panel from hardwired wired sensors and labels each with the zone. The installer pulls the legacy panel and replaces it with the GE Concord panel. The installer also pulls the existing legacy keypad and replaces it with either a GE keypad or a GE-iControl touchscreen. The installer connects legacy hardwired sensors to appropriate wired zone (from labels) on the Concord. The installer connects the iHub to the local network and connects the iHub RS485 interface to the Concord panel. The iHub automatically ‘enrolls’ legacy RF sensors into the Concord panel as GE sensors (maps IDs), and pushes or otherwise propagates other information gathered from HW panel (zone, name, group). The installer performs a test of all sensors back to CMS. In operation, the iHub relays legacy sensor data to the Concord panel, emulating equivalent GE sensor behavior and protocols.
The areas of the installation process particular to the legacy takeover include how the iHub extracts sensor info from the legacy panel and how the iHub automatically enrolls legacy RF sensors and populates Concord with wired zone information. Each of these areas is described below.
In having the iHub extract sensor information from the legacy panel, the installer ‘enrolls’ iHub into the legacy panel as a wireless keypad (use install code and house ID available from panel). The iHub legacy RF Takeover Card is a compatible legacy RF transceiver. The installer uses the web portal to place iHub into ‘Takeover Mode’, and the web portal the automatically instructs the iHub to begin extraction. The iHub queries the panel over the RF link (to get all zone information for all sensors, wired and RF). The iHub then stores the legacy sensor information received during the queries on the iConnect server.
The iHub also automatically enrolls legacy RF sensors and populates Concord with wired zone information. In so doing, the installer selects ‘Enroll legacy Sensors into Concord’ (next step in ‘Takeover’ process on web portal). The iHub automatically queries the iConnect server, and downloads legacy sensor information previously extracted. The downloaded information includes an ID mapping from legacy ID to ‘spoofed’ GE ID. This mapping is stored on the server as part of the sensor information (e.g., the iConnect server knows that the sensor is a legacy sensor acting in GE mode). The iHub instructs Concord to go into install mode, and sends appropriate Superbus 2000 commands for sensor learning to the panel. For each sensor, the ‘spoofed’ GE ID is loaded, and zone, name, and group are set based on information extracted from legacy panel. Upon completion, the iHub notifies the server, and the web portal is updated to reflect next phase of Takeover (e.g., ‘Test Sensors’).
Sensors are tested in the same manner as described above. When a HW sensor is triggered, the signal is captured by the iHub legacy RF Takeover Card, translated to the equivalent GE RF sensor signal, and pushed to the panel as a sensor event on the SuperBus 2000 wires.
In support of remote programming of the panel, CMS pushes new programming to Concord over a phone line, or to the iConnect CMS/Alarm Server API, which in turn pushes the programming to the iHub. The iHub uses the Concord Superbus 2000 RS485 link to push the programming to the Concord panel.
FIG. 23 is a flow diagram for automatic takeover 2100 of a security system, under an embodiment. Automatic takeover includes establishing 2102 a wireless coupling between a takeover component running under a processor and a first controller of a security system installed at a first location. The security system includes some number of security system components coupled to the first controller. The automatic takeover includes automatically extracting 2104 security data of the security system from the first controller via the takeover component. The automatic takeover includes automatically transferring 2106 the security data to a second controller and controlling loading of the security data into the second controller. The second controller is coupled to the security system components and replaces the first controller.
FIG. 24 is a flow diagram for automatic takeover 2200 of a security system, under an alternative embodiment. Automatic takeover includes automatically forming 2202 a security network at a first location by establishing a wireless coupling between a security system and a gateway. The gateway of an embodiment includes a takeover component. The security system of an embodiment includes security system components. The automatic takeover includes automatically extracting 2204 security data of the security system from a first controller of the security system. The automatic takeover includes automatically transferring 2206 the security data to a second controller. The second controller of an embodiment is coupled to the security system components and replaces the first controller.
Embodiments described herein include a method of interfacing to a security system, comprising local area wireless communication to the security system for the purpose of monitoring, controlling, and/or managing the security system, to name a few.
Embodiments described herein include a method of interfacing to a security system, comprising a wired interface to the security system in combination with one or more wireless interfaces to other sensors and/or devices for the purpose of monitoring, controlling, or managing the security system.
The system of an embodiment communicates with a plurality of security systems, where one or more of the security systems have different RF frequencies and/or communications protocols.
The system of an embodiment coordinates actions between a security system and other devices.
The system of an embodiment notifies users as to changes in sensor state or activity.
The system of an embodiment enables users to control the security system remotely.
The system of an embodiment determines which sensors are included in the security system.
The system of an embodiment determines descriptive characteristics of the sensors included in the security system.
Embodiments described herein include a method of interfacing to a security system, comprising a software application interface providing the ability to communicate with a security system using one or more of a plurality of security system protocols.
The software application of an embodiment interface enables an application to select one of a plurality of security system protocol interfaces.
The software application of an embodiment interface automatically detects available security systems, and uses the communication protocol appropriate to the security systems.
The software application of an embodiment interface simultaneously communicates with multiple security systems using multiple security system protocols.
The software application of an embodiment interface communicates directly with sensors or devices independently from the security system control panel.
The system of an embodiment coordinates actions and data between devices within the security system and other devices.
Embodiments described herein include a device comprising an interface module coupled to a processor. The interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location. The processing component uses a proprietary protocol for processing data of the legacy system. The device comprises a protocol module coupled to the processor. The protocol module comprises a protocol corresponding to the proprietary protocol. The interface module uses the protocol to exchange data with the processing component. The device comprises a communication device coupled to the processor. The communication device communicates with a remote system via a wireless channel. The processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
Embodiments described herein include a device comprising: an interface module coupled to a processor, wherein the interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location, wherein the processing component uses a proprietary protocol for processing data of the legacy system; a protocol module coupled to the processor, wherein the protocol module comprises a protocol corresponding to the proprietary protocol, wherein the interface module uses the protocol to exchange data with the processing component; and a communication device coupled to the processor, wherein the communication device communicates with a remote system via a wireless channel, wherein the processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
The communication device comprises a radio frequency (RF) device.
The communication device comprises a cellular communication device, wherein the cellular communication device communicates with cellular-enabled systems via a cellular network.
The cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, and a Long Term Evolution (LTE) device.
The communication device comprises a broadband communication device.
The communication device comprises a WiFi communication device.
The communication device comprises a Z-Wave communication device.
The communication device comprises a Zigbee communication device.
The communication device comprises a plain old telephone service (POTS) device.
The communication device comprises at least one of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
The communication device comprises at least two of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
The remote system comprises one or more of a server, network operations center, central monitoring station, network device, gateway, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
The legacy system is a control system installed at the location, wherein the control system comprises a plurality of controlled devices.
The plurality of controlled devices comprises one or more of thermostats, lights, locks, sensors, detectors, security devices, appliances, cameras, network devices, controllers, control panel processors, Internet Protocol (IP) devices, Z-Wave devices, and Zigbee devices.
The legacy system enrolls the interface module as a known device.
The event data comprises data of the controlled components.
The processing component comprises a serial bus of the control system, wherein the proprietary protocol is a serial protocol.
The plurality of controlled devices is coupled to the serial bus and registered with a controller of the control system.
The device of an embodiment comprises a wire-based coupling between the interface module and the serial bus.
The wire-based coupling comprises at least one of a TTL interface, an RS-232 interface, and an RS-422 interface.
The device of an embodiment comprises a wireless-based coupling between the interface module and the serial bus.
The device of an embodiment comprises a reporting interface module coupled to the processor, wherein the reporting interface module transmits a status report to the remote system via the communication device.
The reporting interface module receives the status report from the legacy system.
The reporting interface module receives the event data from the legacy system, wherein the event data comprises state data of the control system and the controlled devices.
The reporting interface module generates the status report from the event data and the state data.
The remote system comprises a network operations center.
The reporting interface module transmits the status report to the remote system via at least one intermediate system.
The interface module receives event data asynchronously transmitted by the legacy system and passes the event data to the remote system via the communication device.
The communication device receives polling requests from the remote system and passes the polling requests to the legacy system via the interface module.
The communication device conducts polling operations on behalf of the remote system.
The event data received from the legacy system in response to the polling operations is sent to the remote system.
Upon receiving the event data the processor buffers the event data prior to sending the event data to the remote system.
Upon receiving the event data the processor retransmits the event data to the remote system.
The protocol corresponding to the proprietary protocol comprises an abbreviated command set.
The protocol comprises a protocol translator that maps between a first set of commands of the legacy system and a second set of commands of the remote system.
The device of an embodiment comprises at least one proxy executed by the processor.
The at least one proxy comprises configuration parameters, wherein the configuration parameters include at least one of enable, disable, automatic-sense on, automatic-sense off, legacy system type, interface module type, polling type, polling level, polling commands, polling rate, and statistic period.
Configuration parameters of the at least one proxy are set via the remote system.
Configuration parameters of the at least one proxy are automatically determined and set by the at least one proxy using detected information of at least one of the legacy system and the remote system.
The at least one proxy includes a polling proxy, wherein the polling proxy is an intermediary between the remote system and the legacy system.
The polling proxy at least one of processes, parses, translates protocol, adjusts timing, buffers, and queues messages exchanged between the remote system and the legacy system.
The polling proxy comprises message polling.
The message polling comprises providing polling commands that prompt for messages exchanged between the interface module and the legacy system, wherein the messages include at least one of legacy system state changes, legacy system mode changes, legacy system resource changes, responses to remote system commands, message management.
The polling proxy comprises data polling.
The data polling comprises polling for data including at least one of internal state data and resource data of the legacy system,
The data polling comprises polling for data that indicates at least one of a change of state and a change of resources.
The polling proxy compares data received during data polling to data from at least one previous query, wherein the polling proxy infers from the comparison at least one of state changes and resource changes.
The at least one proxy includes an injection proxy running on the processor.
The injection proxy is a transparent pass-through for a first message exchanged between the remote system and the legacy system, wherein the first message is related to a non-polling function of the legacy system, wherein in response to the first message received from the remote system the injection proxy passes the first message to the legacy system, wherein in response to the first message received from the legacy system the injection proxy passes the first message to the remote system.
The injection proxy manages polling data of a second message exchanged between the remote system and the legacy system, wherein the second message is related to a polling function of the legacy system.
In response to the second message received from the remote system, the injection proxy generates a third message and sends the third message to the legacy system, wherein the third message is generated by injecting polling commands into the second message.
In response to the second message received from the legacy system, the injection proxy generates a fourth message and sends the fourth message to the remote system, wherein the fourth message is generated by removing polling information from the second message.
The at least one proxy includes a rewrite proxy, wherein the rewrite proxy rewrites sequence numbers of messages that pass between the remote system and the legacy system.
The rewrite proxy detects a sequence number of the second message is shared as the sequence number of the first message.
The rewrite proxy rewrites sequence numbers of the first message, wherein a first sequence count corresponding to the first message between the rewrite proxy and the remote system is continuous, wherein a second sequence count corresponding to the first message between the rewrite proxy and the legacy system is continuous.
The rewrite proxy rewrites sequence numbers of the second message, wherein a third sequence count corresponding to the second message between the rewrite proxy and the remote system is continuous, wherein a fourth sequence count corresponding to the second message between the rewrite proxy and the legacy system is continuous.
The device of an embodiment comprises a scheduling engine coupled to the processor, wherein the scheduling engine schedules automations and events of associated devices coupled to the communication device.
The processor controls communications by controlling at least one of protocol translation, communication translation, and timing constraints of communication events.
The commands from the remote system comprise Transmission Control Protocol (TCP), wherein transmissions to the remote system comprise User Datagram Protocol (UDP).
The communication device comprises a WiFi communication device, wherein the remote system comprises a gateway at the location, wherein the gateway comprises a wireless access manager coupled to a gateway processor, wherein the wireless access manager establishes a communication channel with the communication device, wherein the communication channel passes communications that comprise commands to the legacy system from the remote system, and event data to the remote system from the legacy system.
The device of an embodiment comprises a second communication device that is a cellular communication device, wherein the cellular communication device establishes a second communication channel with at least one other remote system, wherein the second communication channel passes communications that comprise commands to the legacy system from the at least one other remote system, and event data to the at least one other remote system from the legacy system.
The communication device comprises operating credentials received via the gateway.
Configuration and status data of the communication device is provided via the gateway.
The at least one other remote system comprises one or more of a server, network operations, center, central monitoring station, network device, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
The communication device communicates with at least one of the remote system and the at least one other remote system, wherein the processor controls communications that comprise passing commands from at least one of the remote system and the at least one other remote system to the legacy system, and passing event data of the legacy system to at least one of the remote system and the at least one other remote system.
The gateway comprises a connection manager coupled to a gateway processor, wherein the connection manager is coupled to a plurality of remote servers via a network and communicates with the plurality of remote servers over the network.
The connection manager receives via the network a set of protocols corresponding to the legacy system.
The gateway comprises a protocol manager coupled to the gateway processor, wherein the protocol manager includes the set of protocols corresponding to the legacy system.
The set of protocols include the protocol, wherein the protocol module receives the protocol from the protocol manager.
The gateway comprises a device manager coupled to the gateway processor, wherein the device manager processes the commands and the event data exchanged between the remote system and the legacy system via the interface module.
The wireless access manager initiates learning of the gateway into the legacy system using the set of protocols.
The gateway includes at least one wireless device coupled to a gateway processor, wherein the protocol manager includes at least one wireless device protocol corresponding to the at least one wireless device, wherein the at least one wireless device provides at least one communication channel with at least one wireless device at the location.
The gateway locates and enrolls the interface module as a known device.
Embodiments described herein include a system comprising a gateway at a location. The gateway is coupled to a remote system. The system comprises an interface device at the location. The interface device comprises a processor coupled to an interface module, a protocol module, and at least one communication device. The interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location. The processing component uses a proprietary protocol for processing data of the legacy system. The protocol module comprises a protocol corresponding to the proprietary protocol. The interface module uses the protocol to exchange data with the processing component. The at least one communication device communicates with at least one of the gateway and the remote system via at least one wireless channel. The processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
Embodiments described herein include a system comprising: a gateway at a location, wherein the gateway is coupled to a remote system; and an interface device at the location, the interface device comprising a processor coupled to an interface module, a protocol module, and at least one communication device; wherein the interface module comprises a data interface for interfacing with a processing component of a legacy system installed at a location, wherein the processing component uses a proprietary protocol for processing data of the legacy system, wherein the protocol module comprises a protocol corresponding to the proprietary protocol, wherein the interface module uses the protocol to exchange data with the processing component, wherein the at least one communication device communicates with at least one of the gateway and the remote system via at least one wireless channel, wherein the processor controls communications that comprise passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.
The at least one communication device comprises a radio frequency (RF) device.
The at least one communication device comprises a cellular communication device, wherein the cellular communication device communicates with cellular-enabled systems via a cellular network, wherein the cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, and a Long Term Evolution (LTE) device.
The at least one communication device comprises a broadband communication device.
The at least one communication device comprises a WiFi communication device.
The at least one communication device comprises a Z-Wave communication device.
The at least one communication device comprises a Zigbee communication device.
The at least one communication device comprises at least one of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
The remote system comprises one or more of a server, network operations center, central monitoring station, network device, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
The processor controls communications by controlling at least one of protocol translation, communication translation, and timing constraints of communication events.
The at least one communication device comprises a WiFi communication device, wherein the gateway comprises a wireless access manager coupled to a gateway processor, wherein the wireless access manager establishes a communication channel with the at least one communication device, wherein the communication channel passes communications that comprise commands to the legacy system from at least one of the gateway and the remote system, and event data to at least one of the gateway and the remote system from the legacy system.
The at least one communication device comprises a second communication device that is a cellular communication device, wherein the cellular communication device establishes a second communication channel with the remote system, wherein the second communication channel passes communications that comprise commands to the legacy system from the remote system, and event data to the remote system from the legacy system.
The at least one communication device comprises operating credentials received via the gateway.
Configuration and status data of the at least one communication device is provided via the gateway.
The at least one communication device communicates with at least one of the gateway and the remote system, wherein the processor controls communications that comprise passing commands from at least one of the gateway and the remote system to the legacy system, and passing event data of the legacy system to at least one of the gateway and the remote system.
The gateway comprises a connection manager coupled to a gateway processor, wherein the connection manager is coupled to the remote system via a network and communicates with the remote system over the network.
The connection manager receives via the network a set of protocols corresponding to the legacy system.
The gateway comprises a protocol manager coupled to the gateway processor, wherein the protocol manager includes the set of protocols corresponding to the legacy system.
The set of protocols include the protocol, wherein the protocol module receives the protocol from the protocol manager.
The gateway comprises a device manager coupled to the gateway processor, wherein the device manager processes the commands and the event data exchanged between the remote system and the legacy system via the interface module.
The wireless access manager initiates learning of the gateway into the legacy system using the set of protocols.
The gateway includes at least one wireless device coupled to a gateway processor, wherein the protocol manager includes at least one wireless device protocol corresponding to the at least one wireless device, wherein the at least one wireless device provides at least one communication channel with at least one wireless device at the location.
The gateway locates and enrolls the interface module as a known device.
The legacy system is a security system installed at the location, wherein the security system comprises a plurality of security system components.
The plurality of security system components comprise one or more of gateway devices, touchscreen devices, security panels, security panel processors, sensors, detectors, door contacts, window contacts, motion sensors, and glass-break detectors.
The legacy system enrolls the interface device as a known device.
The event data comprises at least one of data of the plurality of security system components, alarm condition data, and sensor data.
The processing component comprises a serial bus of a controller of the security system, wherein the proprietary protocol is a serial protocol.
The plurality of security system components is coupled to the serial bus and registered with the controller.
The system of an embodiment comprises a wire-based coupling between the interface module and the serial bus, wherein the wire-based coupling comprises at least one of a TTL interface, an RS-232 interface, and an RS-422 interface.
The system of an embodiment comprises a wireless-based coupling between the interface module and the serial bus.
The system of an embodiment comprises an alarm interface module coupled to the processor, wherein the alarm interface module transmits an alarm report to at least one of the gateway and the remote system.
The alarm interface module receives the alarm report from the legacy system.
The alarm interface module receives the event data from the legacy system, wherein the event data comprises security state data of the security system, wherein the alarm interface module generates the alarm report from the security state data.
The remote system comprises an alarm central monitoring station.
The alarm interface module transmits the alarm report to at least one of the gateway and the remote system via at least one intermediate system.
The interface module receives event data asynchronously transmitted by the legacy system and passes the event data to at least one of the gateway and the remote system via the at least one communication device.
The at least one communication device receives polling requests from at least one of the gateway and the remote system and passes the polling requests to the legacy system via the interface module.
The at least one communication device conducts polling operations on behalf of the remote system.
The event data received from the legacy system in response to the polling operations is sent to at least one of the gateway and the remote system.
Upon receiving the event data the processor buffers the event data prior to sending the event data to at least one of the gateway and the remote system.
Upon receiving the event data the processor retransmits the event data to at least one of the gateway and the remote system.
The protocol corresponding to the proprietary protocol comprises an abbreviated command set.
The protocol comprises a protocol translator that maps between a first set of commands of the legacy system and a second set of commands of the remote system.
The gateway forms a security network by automatically discovering via the interface device the security system components and integrating communications and functions of the security system components into the security network via the wireless coupling.
The gateway comprises a user interface coupled to the security network, wherein the user interface allows control of the functions of the security network by a user.
The user interface is a touchscreen device, wherein the touchscreen device includes the gateway.
The system of an embodiment comprises a portal coupled to the gateway, wherein the portal provides access to the communications and the functions of the security network via the remote system.
The system of an embodiment comprises an interface coupled to the security network, wherein the interface allows control of the functions of the security network from the remote system.
The gateway automatically discovers the security system components and establishes and controls the communications with the security system components.
The gateway includes a device connect component that includes definitions of the security system components.
The security system is coupled to a central monitoring station via a primary communication link, wherein the gateway is coupled to the central monitoring station via a secondary communication link that is different than the primary communication link.
The gateway transmits event data of the security system components to the central monitoring station over the secondary communication link.
The gateway transmits messages comprising event data of the security system components to the remote system over the secondary communication link.
The gateway receives control data for control of the security system components from the remote system via the secondary communication link.
The security network comprises network devices coupled to the gateway via a wireless coupling, wherein the network devices include at least one of an Internet Protocol (IP) device, a camera, a touchscreen, a device controller that controls an attached device, and a sensor.
The gateway automatically discovers the network devices and installs the network devices in the security network.
The gateway controls communications between the network devices, the security system components, and the remote system.
The gateway transmits event data of the network devices to the remote system over at least one communication link, wherein the event data comprises changes in device states of the network devices, data of the network devices, and data received by the network devices.
The gateway receives control data for control of the network devices from the remote system via the at least one communication link.
The remote system includes a security server at a remote location different from the location, wherein the security server is coupled to the gateway.
The security server creates, modifies and terminates couplings between the gateway and at least one of the security system components and the network devices.
The security server creates, modifies, deletes and configures at least one of the security system components and the network devices.
The security server creates automations, schedules and notification rules associated with at least one of the security system components and the network devices.
The security server manages communications with at least one of the security system components and the network devices.
The interface device comprises a scheduling engine coupled to the processor, wherein the scheduling engine schedules automations and events of at least one of the security system components and the network devices.
The system of an embodiment comprises at least one proxy executed by the processor of the interface device.
The at least one proxy includes a polling proxy, wherein the polling proxy is an intermediary between the remote system and the legacy system.
The polling proxy at least one of processes, parses, translates protocol, adjusts timing, buffers, and queues messages exchanged between the remote system and the legacy system.
The polling proxy comprises message polling, wherein the message polling comprises providing polling commands that prompt for messages exchanged between the interface module and the legacy system, wherein the messages include at least one of legacy system state changes, legacy system mode changes, legacy system resource changes, responses to remote system commands, message management.
The polling proxy comprises data polling.
The data polling comprises polling for data including at least one of internal state data and resource data of the legacy system, and data that indicates at least one of a change of state and a change of resources.
The polling proxy compares data received during data polling to data from at least one previous query, wherein the polling proxy infers from the comparison at least one of state changes and resource changes.
The at least one proxy includes an injection proxy running on the processor.
The injection proxy is a transparent pass-through for a first message exchanged between the remote system and the legacy system, wherein the first message is related to a non-polling function of the legacy system, wherein in response to the first message received from the remote system the injection proxy passes the first message to the legacy system, wherein in response to the first message received from the legacy system the injection proxy passes the first message to the remote system.
The injection proxy manages polling data of a second message exchanged between the remote system and the legacy system, wherein the second message is related to a polling function of the legacy system.
In response to the second message received from the remote system, the injection proxy generates a third message and sends the third message to the legacy system, wherein the third message is generated by injecting polling commands into the second message.
In response to the second message received from the legacy system, the injection proxy generates a fourth message and sends the fourth message to the remote system, wherein the fourth message is generated by removing polling information from the second message.
The at least one proxy includes a rewrite proxy, wherein the rewrite proxy rewrites sequence numbers of messages that pass between the remote system and the legacy system.
The rewrite proxy detects a sequence number of the second message is shared as the sequence number of the first message.
The rewrite proxy rewrites sequence numbers of the first message, wherein a first sequence count corresponding to the first message between the rewrite proxy and the remote system is continuous, wherein a second sequence count corresponding to the first message between the rewrite proxy and the legacy system is continuous.
The rewrite proxy rewrites sequence numbers of the second message, wherein a third sequence count corresponding to the second message between the rewrite proxy and the remote system is continuous, wherein a fourth sequence count corresponding to the second message between the rewrite proxy and the legacy system is continuous.
Embodiments described herein include a method comprising establishing an interface with a processing component of a legacy system installed at a location. The processing component uses a proprietary protocol for processing data of the legacy system. The method comprises using a protocol with the interface to exchange data with the processing component, wherein the protocol corresponds to the proprietary protocol. The method comprises communicating between the interface and a remote system via a communication device and a wireless channel. The communicating comprises controlling communications by passing commands from the remote system to the legacy system, and passing the data of the legacy system to the remote system.
Embodiments described herein include a method comprising: establishing an interface with a processing component of a legacy system installed at a location, wherein the processing component uses a proprietary protocol for processing data of the legacy system; using a protocol with the interface to exchange data with the processing component, wherein the protocol corresponds to the proprietary protocol; and communicating between the interface and a remote system via a communication device and a wireless channel, wherein the communicating comprises controlling communications by passing commands from the remote system to the legacy system, and passing the data of the legacy system to the remote system.
The communication device comprises a radio frequency (RF) device.
The communication device comprises a cellular communication device, wherein the cellular communication device communicates with cellular-enabled systems via a cellular network.
The cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, and a Long Term Evolution (LTE) device.
The communication device comprises a broadband communication device.
The communication device comprises a WiFi communication device.
The communication device comprises a Z-Wave communication device.
The communication device comprises a Zigbee communication device.
The communication device comprises a plain old telephone service (POTS) device.
The communication device comprises at least one of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
The communication device comprises at least two of a cellular communication device, a third Generation (3G) communication device, a High Speed Packet Access (HSPA) communication device, an Enhanced Voice-Data Optimized (EVDO) communication device, a Long Term Evolution (LTE) communication device, a broadband communication device, a WiFi communication device, a Z-Wave communication device, a Zigbee communication device, and a plain old telephone service (POTS) device.
The remote system comprises one or more of a server, network operations center, central monitoring station, network device, gateway, personal computing device, cellular telephone, smartphone, tablet computer, personal computer.
The legacy system is a control system installed at the location, wherein the control system comprises a plurality of controlled devices.
The plurality of controlled devices comprises one or more of thermostats, lights, locks, sensors, detectors, security devices, appliances, cameras, network devices, controllers, control panel processors, Internet Protocol (IP) devices, Z-Wave devices, and Zigbee devices.
The method comprises enrolling as a known device at the legacy system the interface module.
The event data comprises data of the controlled components.
The processing component comprises a serial bus of the control system, wherein the proprietary protocol is a serial protocol.
The plurality of controlled devices is coupled to the serial bus and registered with a controller of the control system.
The method comprises transmitting a status report to the remote system via the communication device and a reporting interface module.
The method comprises receiving the status report from the legacy system at the reporting interface module.
The method comprises receiving at the reporting interface module the event data from the legacy system, wherein the event data comprises state data of the control system and the controlled devices.
The method comprises generating at the reporting interface module the status report from the event data and the state data.
The method comprises transmitting the status report to the remote system via at least one intermediate system.
The method comprises receiving at the interface module event data asynchronously transmitted by the legacy system and passing the event data to the remote system via the communication device.
The method comprises receiving at the communication device polling requests from the remote system and passing the polling requests to the legacy system via the interface module.
The method comprises the communication device conducting polling operations on behalf of the remote system.
The method comprises sending the event data received from the legacy system in response to the polling operations to the remote system.
The method comprises buffering the event data prior to sending the event data to the remote system.
The method comprises upon receiving the event data retransmitting the event data to the remote system.
The protocol corresponding to the proprietary protocol comprises an abbreviated command set.
The protocol comprises a protocol translator that maps between a first set of commands of the legacy system and a second set of commands of the remote system.
The method comprises executing at the interface at least one proxy.
The at least one proxy comprises configuration parameters, wherein the configuration parameters include at least one of enable, disable, automatic-sense on, automatic-sense off, legacy system type, interface module type, polling type, polling level, polling commands, polling rate, and statistic period.
The method comprises setting via the remote system configuration parameters of the at least one proxy.
The method comprises automatically determining and setting configuration parameters of the at least one proxy by the at least one proxy using detected information of at least one of the legacy system and the remote system.
The at least one proxy includes a polling proxy, wherein the polling proxy is an intermediary between the remote system and the legacy system.
The polling proxy at least one of processes, parses, translates protocol, adjusts timing, buffers, and queues messages exchanged between the remote system and the legacy system.
The polling proxy comprises message polling.
The message polling comprises providing polling commands that prompt for messages exchanged between the interface module and the legacy system, wherein the messages include at least one of legacy system state changes, legacy system mode changes, legacy system resource changes, responses to remote system commands, message management.
The polling proxy comprises data polling.
The data polling comprises polling for data including at least one of internal state data and resource data of the legacy system,
The data polling comprises polling for data that indicates at least one of a change of state and a change of resources.
The polling proxy compares data received during data polling to data from at least one previous query, wherein the polling proxy infers from the comparison at least one of state changes and resource changes.
The at least one proxy includes an injection proxy running on the processor.
The injection proxy is a transparent pass-through for a first message exchanged between the remote system and the legacy system, wherein the first message is related to a non-polling function of the legacy system, wherein in response to the first message received from the remote system the injection proxy passes the first message to the legacy system, wherein in response to the first message received from the legacy system the injection proxy passes the first message to the remote system.
The injection proxy manages polling data of a second message exchanged between the remote system and the legacy system, wherein the second message is related to a polling function of the legacy system.
In response to the second message received from the remote system, the injection proxy generates a third message and sends the third message to the legacy system, wherein the third message is generated by injecting polling commands into the second message.
In response to the second message received from the legacy system, the injection proxy generates a fourth message and sends the fourth message to the remote system, wherein the fourth message is generated by removing polling information from the second message.
The at least one proxy includes a rewrite proxy, wherein the rewrite proxy rewrites sequence numbers of messages that pass between the remote system and the legacy system.
The rewrite proxy detects a sequence number of the second message is shared as the sequence number of the first message.
The rewrite proxy rewrites sequence numbers of the first message, wherein a first sequence count corresponding to the first message between the rewrite proxy and the remote system is continuous, wherein a second sequence count corresponding to the first message between the rewrite proxy and the legacy system is continuous.
The rewrite proxy rewrites sequence numbers of the second message, wherein a third sequence count corresponding to the second message between the rewrite proxy and the remote system is continuous, wherein a fourth sequence count corresponding to the second message between the rewrite proxy and the legacy system is continuous.
The method comprises scheduling with a scheduling engine automations and events of associated devices coupled to the communication device.
The method comprises controlling communications by controlling at least one of protocol translation, communication translation, and timing constraints of communication events.
As described above, computer networks suitable for use with the embodiments described herein include local area networks (LAN), wide area networks (WAN), Internet, or other connection services and network variations such as the world wide web, the public internet, a private internet, a private computer network, a public network, a mobile network, a cellular network, a value-added network, and the like. Computing devices coupled or connected to the network may be any microprocessor controlled device that permits access to the network, including terminal devices, such as personal computers, workstations, servers, mini computers, main-frame computers, laptop computers, mobile computers, palm top computers, hand held computers, mobile phones, TV set-top boxes, or combinations thereof. The computer network may include one of more LANs, WANs, Internets, and computers. The computers may serve as servers, clients, or a combination thereof.
The integrated security system can be a component of a single system, multiple systems, and/or geographically separate systems. The integrated security system can also be a subcomponent or subsystem of a single system, multiple systems, and/or geographically separate systems. The integrated security system can be coupled to one or more other components (not shown) of a host system or a system coupled to the host system.
One or more components of the integrated security system and/or a corresponding system or application to which the integrated security system is coupled or connected includes and/or runs under and/or in association with a processing system. The processing system includes any collection of processor-based devices or computing devices operating together, or components of processing systems or devices, as is known in the art. For example, the processing system can include one or more of a portable computer, portable communication device operating in a communication network, and/or a network server. The portable computer can be any of a number and/or combination of devices selected from among personal computers, personal digital assistants, portable computing devices, and portable communication devices, but is not so limited. The processing system can include components within a larger computer system.
The processing system of an embodiment includes at least one processor and at least one memory device or subsystem. The processing system can also include or be coupled to at least one database. The term “processor” as generally used herein refers to any logic processing unit, such as one or more central processing units (CPUs), digital signal processors (DSPs), application-specific integrated circuits (ASIC), etc. The processor and memory can be monolithically integrated onto a single chip, distributed among a number of chips or components, and/or provided by some combination of algorithms. The methods described herein can be implemented in one or more of software algorithm(s), programs, firmware, hardware, components, circuitry, in any combination.
The components of any system that includes the integrated security system can be located together or in separate locations. Communication paths couple the components and include any medium for communicating or transferring files among the components. The communication paths include wireless connections, wired connections, and hybrid wireless/wired connections. The communication paths also include couplings or connections to networks including local area networks (LANs), metropolitan area networks (MANs), wide area networks (WANs), proprietary networks, interoffice or backend networks, and the Internet. Furthermore, the communication paths include removable fixed mediums like floppy disks, hard disk drives, and CD-ROM disks, as well as flash RAM, Universal Serial Bus (USB) connections, RS-232 connections, telephone lines, buses, and electronic mail messages.
Aspects of the integrated security system and corresponding systems and methods described herein may be implemented as functionality programmed into any of a variety of circuitry, including programmable logic devices (PLDs), such as field programmable gate arrays (FPGAs), programmable array logic (PAL) devices, electrically programmable logic and memory devices and standard cell-based devices, as well as application specific integrated circuits (ASICs). Some other possibilities for implementing aspects of the integrated security system and corresponding systems and methods include: microcontrollers with memory (such as electronically erasable programmable read only memory (EEPROM)), embedded microprocessors, firmware, software, etc. Furthermore, aspects of the integrated security system and corresponding systems and methods may be embodied in microprocessors having software-based circuit emulation, discrete logic (sequential and combinatorial), custom devices, fuzzy (neural) logic, quantum devices, and hybrids of any of the above device types. Of course the underlying device technologies may be provided in a variety of component types, e.g., metal-oxide semiconductor field-effect transistor (MOSFET) technologies like complementary metal-oxide semiconductor (CMOS), bipolar technologies like emitter-coupled logic (ECL), polymer technologies (e.g., silicon-conjugated polymer and metal-conjugated polymer-metal structures), mixed analog and digital, etc.
It should be noted that any system, method, and/or other components disclosed herein may be described using computer aided design tools and expressed (or represented), as data and/or instructions embodied in various computer-readable media, in terms of their behavioral, register transfer, logic component, transistor, layout geometries, and/or other characteristics. Computer-readable media in which such formatted data and/or instructions may be embodied include, but are not limited to, non-volatile storage media in various forms (e.g., optical, magnetic or semiconductor storage media) and carrier waves that may be used to transfer such formatted data and/or instructions through wireless, optical, or wired signaling media or any combination thereof. Examples of transfers of such formatted data and/or instructions by carrier waves include, but are not limited to, transfers (uploads, downloads, e-mail, etc.) over the Internet and/or other computer networks via one or more data transfer protocols (e.g., HTTP, FTP, SMTP, etc.). When received within a computer system via one or more computer-readable media, such data and/or instruction-based expressions of the above described components may be processed by a processing entity (e.g., one or more processors) within the computer system in conjunction with execution of one or more other computer programs.
Unless the context clearly requires otherwise, throughout the description and the claims, the words “comprise,” “comprising,” and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is to say, in a sense of “including, but not limited to.” Words using the singular or plural number also include the plural or singular number respectively. Additionally, the words “herein,” “hereunder,” “above,” “below,” and words of similar import, when used in this application, refer to this application as a whole and not to any particular portions of this application. When the word “or” is used in reference to a list of two or more items, that word covers all of the following interpretations of the word: any of the items in the list, all of the items in the list and any combination of the items in the list.
The above description of embodiments of the integrated security system and corresponding systems and methods is not intended to be exhaustive or to limit the systems and methods to the precise forms disclosed. While specific embodiments of, and examples for, the integrated security system and corresponding systems and methods are described herein for illustrative purposes, various equivalent modifications are possible within the scope of the systems and methods, as those skilled in the relevant art will recognize. The teachings of the integrated security system and corresponding systems and methods provided herein can be applied to other systems and methods, not only for the systems and methods described above.
The elements and acts of the various embodiments described above can be combined to provide further embodiments. These and other changes can be made to the integrated security system and corresponding systems and methods in light of the above detailed description.

Claims (75)

What is claimed is:
1. A system comprising:
one or more premises devices;
a gateway device configured to communicate with the one or more premises devices; and
a computing device configured to communicate with the gateway device and the one or more premises devices, wherein the computing device is configured to:
receive, from the gateway device, a first poll message associated with the one or more premises devices;
send, via a first communication protocol and based on receiving the first poll message associated with the one or more premises devices, a second poll message to the one or more premises devices to request a status of the one or more premises devices, wherein the status of the one or more premises devices comprises an operational state of the one or more premises devices;
receive, from the one or more premises devices, one or more messages comprising an indication of the operational state of the one or more premises devices; and
send, to the gateway device and via a second communication protocol different from the first communication protocol, an indication of at least one status of the one or more premises devices, wherein the at least one status is based on the one or more messages.
2. The system of claim 1, wherein the computing device comprises at least one of a radio frequency (RF) device, a Z-Wave communication device, a Zigbee communication device, a WiFi communication device, a broadband communication device, or a plain old telephone service (POTS) device.
3. The system of claim 1, wherein the computing device comprises a cellular communication device, wherein the cellular communication device is configured to communicate with cellular-enabled systems via a cellular network.
4. The system of claim 3, wherein the cellular communication device comprises at least one of a third Generation (3G) device, a High Speed Packet Access (HSPA) device, an Enhanced Voice-Data Optimized (EVDO) device, or a Long Term Evolution (LTE) device.
5. The system of claim 1, wherein the computing device is further configured to:
filter a stream of data, based at least on a determination that at least a portion of the stream of data is associated with the status of the one or more premises devices; and
send the filtered stream of data to the gateway device.
6. The system of claim 1, wherein the operational state of the one or more premises devices comprises at least one of an arm level, an alarm, a trouble condition, or resource data associated with the one or more premises devices.
7. The system of claim 1, wherein the computing device is further configured to send the indication of the status in packets of data to the gateway device.
8. The system of claim 1, wherein the computing device is further configured to:
determine, based on comparing the one or more responses to stored data associated with the one or more premises devices, the at least one status of the one or more premises devices; and
determine, based on the comparing, a state change or a resource change of at least one of the one or more premises devices, and
wherein the indication of the at least one status of the one or more premises devices is based at least on the determination of the state change or the resource change.
9. The system of claim 1, wherein the computing device is further configured to:
determine a type of at least one of the one or more premises devices; and
send the status request based on the determination of the type of the at least one of the one or more premises devices.
10. The system of claim 1, wherein the one or more premises devices comprise one or more of thermostats, lights, locks, sensors, detectors, security devices, appliances, cameras, network devices, controllers, control panel processors, Internet Protocol (IP) devices, Z-Wave devices, or Zigbee devices.
11. The system of claim 1, wherein the at least one status comprises data generated by the one or more premises devices.
12. The system of claim 1, wherein the computing device is configured to communicate with at least one of the one or more premises devices via a serial line protocol.
13. The system of claim 1, wherein the computing device is configured to output wireless data as serial data.
14. The system of claim 1, wherein the computing device is connected to the one or more premises devices via a serial bus.
15. The system of claim 14, wherein the serial bus comprises at least one of a transistor-transistor logic (TTL) interface, an RS-232 interface, or an RS-422 interface.
16. The system of claim 1, wherein the computing device is further configured to:
receive, from the gateway device and via a wireless network interface, the first poll message; and
send, to the one or more premises devices and via a serial communication interface, the second poll message.
17. The system of claim 1, wherein the computing device is configured to send, to the one or more premises devices, the second poll message by polling the one or more premises devices.
18. The system of claim 1, wherein the data comprises a first set of commands associated with the gateway device, and wherein the computing device is configured to map the first set of commands associated with the gateway device, to a second set of commands associated with the one or more premises devices.
19. The system of claim 1, wherein the computing device is further configured to at least one of process, parse, translate protocol, adjust timing, buffer, or queue communications exchanged between the gateway device and the one or more premises devices.
20. The system of claim 1, wherein the computing device is further configured to:
determine that data received from the gateway device comprises a non-polling message, and
pass, based on a determination that the data comprises the non-polling message and to the one or more premises devices, the data.
21. The system of claim 1, wherein the computing device is configured to remove polling information from the one or more responses to the second poll message and wherein the indication of the status of the one or more premises devices comprises the one or more responses to the second poll message having the polling information removed.
22. The system of claim 1, wherein the computing device is further configured to rewrite sequence numbers of the data and wherein the second poll message for the status of the one or more premises devices comprises the rewritten sequence numbers.
23. The system of claim 1, wherein the gateway device is further configured to control automations and events of the one or more premises devices.
24. The system of claim 1, wherein the one or more responses to the second poll message comprise Transmission Control Protocol (TCP), and wherein the first poll message comprises User Datagram Protocol (UDP).
25. The system of claim 1, wherein the gateway device comprises a wireless access manager coupled to a gateway processor,
wherein the wireless access manager is configured to establish a communication channel, and
wherein the computing device is configured to communicate with the communication channel.
26. The system of claim 1, wherein the gateway device and the computing device are located at a premises and wherein the computing device is further configured to:
receive data from a remote device located external to the premises,
determine that the data indicates a second request for the status of the one or more premises devices, and
send, based on a determination that the data indicates the second request for the status of the one or more premises devices, a status request for the status of the one or more premises devices.
27. A method comprising:
receiving, from a gateway device, a first poll message associated with one or more premises devices;
sending, via a first communication protocol and based on receiving the first poll message associated with the one or more premises devices, a second poll message to the one or more premises devices to request a status of the one or more premises devices, wherein the status of the one or more premises devices comprises an operational state of the one or more premises devices;
receiving, from the one or more premises devices, one or more messages comprising an indication of the operational state of the one or more premises devices; and
sending, to the gateway device and via a second communication protocol different from the first communication protocol, an indication of at least one status of the one or more premises devices, wherein the at least one status is based on the one or more messages.
28. The method of claim 27, wherein the sending the second poll message for the status of the one or more premises devices is via a serial communication interface.
29. The method of claim 28, wherein the receiving the one or more messages is via the serial communication interface.
30. The method of claim 28, wherein the sending the indication of the status of the one or more premises devices is via a wireless network interface.
31. The method of claim 27, further comprising:
determining, based on comparing the one or more responses to stored data associated with the one or more premises devices, the at least one status of the one or more premises devices; and
determining, based on the comparing, a state change or a resource change of at least one of the one or more premises devices, and
wherein the sending the indication of the status of the one or more premises devices is based at least on the determination of the state change or the resource change.
32. The method of claim 27, wherein the at least one status comprises a state change of at least one of the one or more premises devices.
33. The method of claim 27, wherein the receiving the one or more messages comprises receiving a plurality of messages at time intervals.
34. The method of claim 27, further comprising generating, based on the one or more messages, another message comprising the indication of the status of the one or more premises devices, and
wherein the sending the indication of the status of the one or more premises devices comprises sending, to the gateway device, the another message.
35. The method of claim 27, wherein the first communication protocol comprises a serial protocol.
36. The method of claim 27, wherein the second communication protocol comprises a wireless protocol.
37. The method of claim 27, wherein the sending the second poll message for the status of the one or more premises devices comprises sending the second poll message to at least one of the one or more premises devices.
38. The method of claim 27, wherein the sending the second poll message for the status of the one or more premises devices comprises sending the second poll message to a control hub of the one or more premises devices.
39. The method of claim 27, wherein the sending the second poll message for the status of the one or more premises devices is further based on a determination that the gateway device cannot communicate with at least one of the one or more premises devices.
40. The method of claim 27, wherein the sending the second poll message for the status of the one or more premises devices is further based on an indication of an error in polling of the one or more premises devices.
41. The method of claim 27, wherein the data received from the gateway device comprises a stream of data.
42. The method of claim 41, wherein the sending the second poll message comprises streaming data to at least one of the one or more premises devices.
43. The method of claim 41, further comprising generating a second stream of data, and wherein the sending the second poll message comprises sending the second stream of data.
44. The method of claim 43, wherein the request comprises a polling command, and wherein the second stream of data comprises data associated with the polling command.
45. The method of claim 27, wherein receiving the one or more responses to the second poll message comprises receiving, from at least one of the one or more premises devices, a stream of data.
46. The method of claim 45, further comprising filtering the stream of data, and wherein the sending the indication of the status of the one or more premises devices comprises sending, to the gateway device, the filtered stream of data.
47. The method of claim 46, wherein the filtering the stream of data comprises determining at least a portion of the stream of data associated with the status of the one or more premises devices, and
wherein the sending the indication of the status of the one or more premises devices comprises sending the at least a portion of the stream of data associated with the status of the one or more premises devices.
48. A device comprising:
one or more processors; and
memory storing instructions that, when executed by the one or more processors, cause the device to:
receive, from a gateway device, a first poll message associated with one or more premises devices;
send, via a first communication protocol and based on receiving the first poll message associated with the one or more premises devices, a second poll message to the one or more premises devices to request a status of the one or more premises devices, wherein the status of the one or more premises devices comprises an operational state of the one or more premises devices;
receive, from the one or more premises devices, one or more messages comprising an indication of the operational state of the one or more premises devices; and
send, to the gateway device and via a second communication protocol different from the first communication protocol, an indication of at least one status of the one or more premises devices, wherein the at least one status is based on the one or more messages.
49. The device of claim 48, wherein the device is located at a premises and the gateway device is located external to the premises.
50. The device of claim 48, wherein the device and the gateway device are located at a premises and wherein the request for the status of the one or more premises devices is from a user device external to the premises.
51. The device of claim 48, wherein the one or more responses to the second poll message comprise a communication received from at least one of the one or more premises devices.
52. The device of claim 51, wherein the communication comprises at least one data packet comprising a sequence number associated with the gateway device.
53. The device of claim 48, wherein the instructions further cause the device to:
filter a stream of data, based at least on a determination that at least a portion of the stream of data is associated with the status of the one or more premises devices; and
send the filtered stream of data to the gateway device.
54. The device of claim 48, wherein the operational state of the one or more premises devices comprises at least one of an arm level, an alarm, a trouble condition, or resource data associated with the one or more premises devices.
55. The device of claim 48, wherein the instructions further cause the device to send the indication of the status in packets of data to the gateway device.
56. The device of claim 55, wherein the packets of data comprise sequence numbers and wherein the instructions further cause the device to rewrite the sequence numbers of data, and wherein the second poll message comprises the rewritten sequence numbers.
57. The device of claim 48, wherein the indication of the status of the one or more premises devices is associated with polling of the one or more premises devices.
58. The device of claim 48, wherein the instructions further cause the device to perform at least one of message processing, logic proxying, protocol translating, message timing adjusting, message buffering, or message queuing.
59. The device of claim 48, wherein the one or more premises devices comprise a sensor array and wherein the status request comprises a query of a state of the sensor array.
60. The device of claim 48, wherein the one or more premises devices comprise a plurality of sensors and wherein the second poll message comprises a query of a state of at least one of the plurality of sensors.
61. The device of claim 48, wherein the second poll message comprises a query of setting modifications of the one or more premises devices.
62. The device of claim 61, wherein the instructions further cause the device to:
determine, based on comparing the one or more responses to stored data associated with the one or more premises devices, the at least one status of the one or more premises devices; and
determine, based on the comparing of the one or more responses to the stored data, the setting modifications, and
wherein the indication of the status of the one or more premises devices comprises an indication of the setting modifications.
63. The device of claim 48, wherein the instructions further cause the device to:
determine a type of at least one of the one or more premises devices; and
send the second poll message based on the determination of the type of the at least one of the one or more premises devices.
64. The device of claim 63, wherein the type of the at least one of the one or more premises devices comprises a serial device.
65. The device of claim 63, wherein the type of the at least one of the one or more premises devices comprises a polling device.
66. The device of claim 48, wherein the instructions further cause the device to send the second poll message based on continuously polling the one or more premises devices for at least a period of time.
67. The device of claim 48, wherein the instructions further cause the device to send the second poll message based on a determination that the gateway device is not in communication with at least one of the one or more premises devices.
68. The device of claim 48, wherein the instructions further cause the device to send the indication from a network socket of the device and to a gateway device network socket.
69. The device of claim 48, wherein the indication of the status of the one or more premises devices comprises an indication of at least one of a state change, a mode change, a resource change, an error, or a command response of at least one of the one or more premises devices.
70. The system of claim 1, wherein in response to receiving the first poll message, the computing device sends the second poll message after a specified period of time.
71. The method of claim 27, wherein in response to receiving the first poll message, the computing device sends the second poll message after a specified period of time.
72. The device of claim 48, wherein in response to receiving the first poll message, the device sends the second poll message after a specified period of time.
73. The system of claim 1, wherein the one or more messages comprising an indication of the operational state of the one or more premises devices comprises one or more polling commands associated with the second poll message, and further comprising removing, prior to sending the indication of the at least one status of the one or more premises devices, the one or more polling commands associated with the second poll message.
74. The method of claim 27, wherein the one or more messages comprising an indication of the operational state of the one or more premises devices comprises one or more polling commands associated with the second poll message, and further comprising removing, prior to sending the indication of the at least one status of the one or more premises devices, the one or more polling commands associated with the second poll message.
75. The device of claim 48, wherein the one or more messages comprising an indication of the operational state of the one or more premises devices comprises one or more polling commands associated with the second poll message, and further comprising removing, prior to sending the indication of the at least one status of the one or more premises devices, the one or more polling commands associated with the second poll message.
US13/954,553 2004-03-16 2013-07-30 Systems and methods for device communication Active 2027-07-02 US11582065B2 (en)

Priority Applications (31)

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US15/177,441 US20170070361A1 (en) 2008-08-11 2016-06-09 Data model for home automation
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US15/196,646 US20170118037A1 (en) 2008-08-11 2016-06-29 Integrated cloud system for premises automation
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US15/198,855 US10530839B2 (en) 2008-08-11 2016-06-30 Integrated cloud system with lightweight gateway for premises automation
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US13/932,837 Continuation-In-Part US9621408B2 (en) 2004-03-16 2013-07-01 Gateway registry methods and systems
US14/943,162 Continuation-In-Part US10062245B2 (en) 2004-03-16 2015-11-17 Cross-client sensor user interface in an integrated security network
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US14/200,921 Continuation-In-Part US11423756B2 (en) 2007-06-12 2014-03-07 Communication protocols in integrated systems
US14/628,651 Continuation-In-Part US10091014B2 (en) 2004-03-16 2015-02-23 Integrated security network with security alarm signaling system
US16/688,717 Continuation-In-Part US11641391B2 (en) 2008-08-11 2019-11-19 Integrated cloud system with lightweight gateway for premises automation
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